ࡱ> ;>6789:[ Fbjbj$$ DLFkiFkij7z)z))H **.*.*.*8f* r0<.*#144445~:l;NPPPPPP$ftiz)$9<55W<k< tz)z)44ݼSSSw<z)4z)4NS9<NSS^4pDO6:0#4*9Q9l^^9)$,S9<9<9<ttR9<9<9<#9<9<9<9<99<9<9<9<9<9<9<9<9<X @(:  CURRICULUM VITA BRIAN H. DAVISON Corporate Fellow & Chief Scientist-Biotechnology Biosciences Division, Center for Bioenergy Innovation 91, Post Office Box 2008, MS 6037, Oak Ridge, TN 37831-6037 HYPERLINK "http://www.ornl.gov/staff-profile/brian-h-davison"www.ornl.gov/staff-profile/brian-h-davison davisonbh@ornl.gov Professional Highlights: Dr. Brian Davison serves as a leading bioprocess engineer, with his research focusing on biotechnology, including: Bioconversion and renewable resources such as ethanol, organic acids, and solvents. Catalytic upgrading of bio-intermediates into hydrocarbon fuels. The use of mixed cultures, immobilization of microbes & enzymes, and extractive fermentations. Understand biomass structure in pretreatment with a particular interest in the use of neutrons. These efforts have culminated in over 185 publications and 17 patents. Leadership in Translational Science: Cofounder of Vertimass, LLC, a startup upgrading bioethanol to gasoline and Sustainable Aviation Fuel (SAF). Principal Investigator (PI) for technology commercialized into companies like BioAmber and Applied Biocatalysts. Cofounder of the Commercializing Industrial Biotechnology workshop an important lessons-learned and networking event, Role in Bioenergy: Recognized as a leader in the field, Dr. Davison has managed a research portfolio exceeding $480 million as PI or co-PI. Notable contributions include: Organizer or participant in over 15 USDOE workshops and roadmap reports, including co-organizing the significant "Biomass to Biofuels" Workshop in 2005 [DOE/SC-0095]. Chief Science Officer at the Center for Bioenergy Innovation and its predecessor, the Bioenergy Science Center, focusing on sustainable biofeedstock and efficient conversion into fuels and products. Chief Scientist for Biotechnology at ORNL, guiding strategic planning and mentoring. Service and Recognition: Dr. Davison's service to the scientific community and the Department of Energy is well-documented, with highlights including: Two DOE Secretarys Honor Awards in 2015 and 2020. Fellow in AIChE, SIMB & AIMBE. Contributions to key reports, e.g., the March 2023 OSTP report on U.S. biotechnology goals. Long-standing board memberships at AIChE and the Society for Biological Engineering, along with numerous conference organizations. R&D 100 Award in 1997 for developing and licensing a biosuccinic acid process. Commitment to Diversity and Mentorship: Dr. Davison is deeply committed to fostering an inclusive work environment and mentoring the next generation of scientists: Founder of the ORNL LGBTQIA+ employee resource group, advocating for nondiscrimination and policy improvements. Proactive mentor and founding co-chair of the ORNL Educational Research Committee and member of the UT-ORII advisory committee. Chair of the ORNL Institutional Biosafety Committee since 2001. Works with Creative Discovery Museum on Bioenergy outreach (HYPERLINK "http://www.learnbioenergy.org"www.learnbioenergy.org) C.V. COMPLETE DETAILS RESEARCH INTERESTS Bioconversion of renewable resources into fuels and chemicals (ethanol, organic acids, solvents), Hybrid processes (catalytic upgrading of aqueous biointermediates), Systems analysis of microbes (cultivation and proteomics), Non-aqueous biocatalysis, Biofiltration of VOCs, Bioremediation of chlorinated organics, Bioreactor modeling (mass transfer and kinetics), Immobilization of microbes and enzymes, Biosorption of metals, Extractive fermentations, biomass pretreatment and structure. Key recent projects include: Chief Science Officer for the Center for Bioenergy Innovation (cbi.ornl.gov). PI for the DOE-BER project on Visualization of Solvent Disruption of Biomass and Biomembrane Structures in the Production of Advanced Biofuels and Bioproducts ( HYPERLINK "https://sfa-biofuels.ornl.gov/" https://sfa-biofuels.ornl.gov/). AWARDS and HONORS Battelle Distinguished Inventor, Battelle Memorial Institute, 2023. USDOE Secretary of Energys Honor Achievement Award for DOE National Laboratories COVID-19 Clinical Testing Teams, 2020. UT-Battelle Individual Achievement in Technology Transfer, ORNL, 2018. Fellow, Society for Industrial Microbiology and Biotechnology (SIMB), 2017. Fellow, American Institute of Chemical Engineers (AIChE), 2016. USDOE Secretary of Energys Honor Achievement Award for The WIPP Technical Assessment Team (TAT) and Accident Investigation Board (AIB), 2015. UT-Battelle Science Communicator of the Year, ORNL, 2010. Charles D Scott Award for distinguished contributions to the field of biotechnology for fuels and chemicals, Society for Industrial Microbiology, Symposium on Biotechnology for Fuels and Chemicals, 2006. College of Fellows, American Institute for Medical and Biological Engineering (AIMBE), 2006. R&D100 Award for Production of Chemicals from Biologically Derived Succinic Acid, Research & Development Magazine, 1997. This technology was licensed for commercialization by BioAmber. Management Achievement Award, Life Sciences Division, ORNL, 2002. Significant Event Award for Expression of Lignin Peroxidase in Yeast, ORNL, 2000. Significant Event Award for Dry Enzyme Catalysis, ORNL, 2000. Technology Maturation Award for Succinic Acid Process, ORNL, 1999. Technical Achievement Award for Innovative Research Leading to the Development of the Biparticle Fluidized-Bed Bioreactor, Martin Marietta Energy Systems, Inc., 1992. Distinguished Writing Award for Scholarly Articles (First place) by the Society for Technical Communication - EastTennessee, 1991. Significant Event Award for High Productivity, Ethanol Fermentation, Martin Marietta Energy Systems, 1987. Outstanding Graduating Engineer, University of Rochester, 1979. Wilson Scholar, University of Rochester, 19751979. AIChE Outstanding Junior Chemical Engineer, University of Rochester, 1978. National Merit Scholarship, 1975. PROFESSIONAL EXPERIENCE 91, Corporate Fellow, 2020-present. Corporate Fellow in the top research staff level at ORNL. 91, Chief Scientist for Systems Biology and Biotechnology, 2006Present Lead Lab-wide initiatives in Systems Biology and in Bioenergy. Serve as Chief Science Officer for the Center for Bioenergy Innovation (cbi.ornl.gov). Served as Science Coordinator for integration for the BioEnergy Science Center,  HYPERLINK "http://www.bioenergyscience.org" www.bioenergyscience.org. Coordinated successful proposals for the Bioenergy Science Center and other projects. PI for the ongoing DOE-BER project on Visualization of Solvent Disruption of Biomass and Biomembrane Structures in the Production of Advanced Biofuels and Bioproducts ( HYPERLINK "https://sfa-biofuels.ornl.gov/" https://sfa-biofuels.ornl.gov/). Manage internal investment portfolio and develop new programs, staff and teams in these focus areas. Research in biomass conversion, microbial cultivation and nonaqueous enzymes. Codeveloped technology in catalytic upgrading of ethanol into hydrocarbons, which is licensed to Vertimass. Chief Scientist for Genomic Sciences for the U.S. DOE Biological and Environmental Research Office (20092011). Serve as Chair of the Institutional Biosafety Committee since 2001. Cochair ORNL Education Research Committee 2021-present. 91, Director, Life Sciences Division, 20042005 Management of active research division consisting of 100 staff members in addition to students and subcontractors. Continued research while assisting multiple initiatives for genomics, biosecurity, and sensors. 91, Senior Biochemical Engineer and Group Leader, 19952001, Distinguished Researcher and BioChemical Engineering Research Group Leader, 20022003 Research and Development (R&D) activities expanded in areas listed with programmatic responsibilities, supervision, and support of 5 to 15 research staff members including postdocs, technicians, and students. Managed more than ten research projects. Project Team Leader of the Alternative Feedstocks Program which involved coordination for interdisciplinary multilab teams with industrial partners for demonstration of an economic process to convert renewables into commodity chemicals (i.e., succinic acid). Other projects include: nonaqueous biocatalysis, biofiltration and ethanol fermentation with experimental planning and modeling. Served as Co-Chair of the 15th to 26th Symposia on Biotechnology for Fuels and Chemicals. Assisted in several lab-wide initiatives (e.g., Bioenergy/Bioproducts, chemical warfare decontamination, biological CO2 sequestration). Operated a 500-L fermentor as Manager for ORNLs Bioprocessing User Facility 19922003. 91, Biochemical Engineer II, 19901995 R&D on bioprocessing with increased supervisory duties. Projects included immobilized-cell bioreactors, extractive fermentation of butanol, biomethanogenesis, conversion of wastepaper, and collaborations with outside researchers and private industry. Assisted in the development of a predictive model for the fluidized-bed bioreactor. Responsible for interface of research and maintenance staff in preparation for major external Environmental Safety and Health inspection while serving as Local Facility Supervisor for two years. 91, Biochemical Engineer I, 19851990 Research emphasized experiments and modeling of immobilized-cell fluidized-bed bioreactors. Designed and tested bioreactors for ethanol production and for simultaneous fermentation and separation of organic acids. This included scale-up (to a 10-ft column) and the use of industrial feedstocks. University of Tennessee-Knoxville, Faculty Bredesen Center, University of Tennessee/ORNL, 2010 Present [unpaid], degree program in energy, two graduate students and many committees. Adjunct Professor of Chemical and Biological Engineering, 1988Present [unpaid]; supervision of three Ph.D. students and four Masters students; occasional instructor of BioChE graduate courses EDUCATION Ph.D. Chemical Engineering, California Institute of Technology, Pasadena, California, 1985. Thesis topic: Dynamics and Coexistence of Mixed Microbial Cultures. Stable coexistence of competing microorganisms (E. coli and S. cerevisiae) in chemostats. Thesis Advisor: Dr. Gregory N. Stephanopoulos B.S.E. Chemical Engineering, with honors, University of Rochester, Rochester, New York, 1979. PROFESSIONAL AFFILIATIONS American Institute of Chemical Engineers: Board of Directors (2020-2022), Fellow, chair for sessions; Trustee for AIChE foundation (2023-2026). Society for Biological Engineering: Managing Board of Directors - AIChE (2012on). American Chemical Society (chaired symposia and sessions and served on several BIOT committees). Society for Industrial Microbiology and Biotechnology. Chair, Symposium on Biotechnology for Fuels and Chemicals and editor of the Proceedings in Appl. Biochem. Biotechnol, (19942005). Organizing Committee (20062012). The Symposium grew from 150 to 400 attendees during my twelve years as chair. Founding co-chair. Commercializing Industrial Biotechnology Workshop (2012-2014); organizing committee 2015-present. Editorial Boards: Biotechnol for Biofuels (2018-present); J Industrial Biotechnology (2011Present). Advisory boards: NSERC Bioconversion Network for Guelph and Univ. British Columbia (20092015). BBSRC Sustainable Bioenergy Centre (BSBEC), United Kingdom (20102015). C3 Bio EFRC, Purdue University (20122016). Southeast Agriculture and Forestry Energy Resources Alliance (20072010). Co-Organizer for the USDOE Biomass to Biofuels Workshop, December 2005. Breaking the Biological Barriers to Cellulosic Ethanol, DOE/SC-0095. Participant in Microbial Production of Energy Colloquium, March 1012, 2006, San Francisco, California. Report by American Academy of Microbiology. DETAILED LISTS below include Publications, Patents, Book Chapters, Conference Proceedings, Workshops & Roadmaps, ORNL Technical Reports, Reviewer, Students, Presentations, and Media. JOURNAL PUBLICATIONS. WebScience H-index is 37. ORCID 0000-0002-7408-3609. Austin J. Conte, Christian O. Kemefa, Atanu Kumar Das, Mood Mohan, Xianzhi Meng, Yunxuan Wang, Micholas Smith, Omar Demerdash, Yunqiao Pu, Brian H. Davison, Jeremy C. Smith, Arthur J. Ragauskas. Towards selective lignin extraction: a systematic review and meta-analysis (submitted) Luoxi Tan, Haden L Scott, Micholas Dean Smith, Sai Venkatesh Pingali, Xiaolin Cheng, Hugh M. O'Neill, John Katsaras, Jeremy C Smith, James G Elkins, Brian H. Davison, Jonathan Nickels. Butanol exposure alters lateral organization in biological membranes (submitted). Junyan Zhang, Shiba Adhikari, Ce Yang, Evan C. Wegener, Jeffrey T. Miller, Theodore R. Krause, Kinga A. Unocic, Lawrence F. Allard, Dongxia Liu, Brian H. Davison, Zili Wu, Zhenglong Li. Zeolite-supported atomically dispersed catalyst for selective ethanol conversion to C3-C6 olefins. (submitted) Chang Geun Yoo, James B. Brown, Brian H. Davison, Richard A. Dixon, Claus Felby, Michael E. Himmel, Daniel A. Jacobson, Martin Keller, Debra Mohnen, Wellington Muchero, Lisbeth Olsson, Yunqiao Pu, Pawel Piatek, C. Neal Stewart, Jr., Blake A. Simmons, Timothy J. Tschaplinski, Gerald A. Tuskan, Charles E. Wyman, Yongil Yang, and Arthur J. Ragauskas, Understanding Lignocellulosic Biomass Recalcitrance: Recent Approaches in Feedstock and Conversion Strategies, (submitted) Senanayake, Manjula; Lin, Chien-Yuan; Mansfield, Shawn; Eudes, Aymerick; Davison, Brian; Pingali, Sai Venkatesh; O'Neill, Hugh. "Ectopic production of 3,4-dihydroxybenzoate in planta affects cellulose structure and organization" Biomacromolecules 25: 3542-3553 (2024). doi.org/10.1021/acs.biomac.4c00187. Johs, Alexander; Qian, Shuo; Coates, Leighton; Davison, Brian; Elkins, James E.; Gu, Xin; Morrell-Falvey, Jennifer; O'Neill, Hugh; Warren, Jeffrey; Pierce, Eric; Herwig, Kenneth, Neutrons for Environmental and Biological Sciences: New Opportunities from the Second Target Station at Spallation Neutron Source at 91, Frontiers of Environmental Science & Engineering (FESE) 18(7):92 (2024) DOI 10.1007/s11783-024-1852-z. Happs, Renee M.; Rebecca Hanes, Andrew W. Bartling, John L. Field, Anne E. Harman-Ware, Robin Clark, Thomas H. Pendergast IV, Katrien M. Devos, Erin G. Webb, Ali Missaoui, Yaping Xu, Shiva Makaju, Vivek Shrestha, Mitra Mazarei, C. Neal Stewart, Jr., Reginald J. Millwood and Brian H. Davison. Economics and Sustainability impacts of yield and composition Variation in Bioenergy Crops: Switchgrass (Panicum virgatum L.). ACS Sustainable Chemistry and Engineering 12(5): 1897-1910 (2024) doi 10.1021/acssuschemeng.3c05770. Klein, BC; Scheidemantle, B; Hanes, RJ; Bartling, AW; Grundl, NJ; Clark, RJ; Biddy, MJ; Tao, L; Trinh, CT; Guss, AM; Wyman, CE; Ragauskas, AJ; Webb, EG; Davison, BH; Cai, CM. Economics and global warming potential of a commercial-scale delignifying biorefinery based on co-solvent enhanced lignocellulosic fractionation to produce alcohols, sustainable aviation fuels, and co-products from biomass, Energy Env Sci 17:1202-1215 (2024) DOI 10.1039/d3ee02532b. Meijun Li, Junyan Zhang, Stephen C. Purdy, Fan Lin, Kinga A. Unocic, Michael Cordon, Zili Wu, Huamin Wang, Jacklyn Hall, A. Jeremy Kropf, Theodore R. Krause, Brian Davison, Zhenglong Li, Andrew D. Sutton. Tailoring Olefin Distribution via Tuning Rare Earth Metals in Bifunctional Cu-RE/Beta-Zeolite Catalysts for Ethanol Upgrading. Applied Catalysis B: Environment and Energy 344: 123648 (2024). doi.org/10.1016/j.apcatb.2023.123648 Wang, Yun-Yan; Smith, Micholas; Luna, Liang Meng, Xianzhi; Pu, Yunqiao; Mitra, Mazarei; Agarwal, Rupesh; Rukmani, Shalini; Davison, Brian; Ragauskas, Arthur. Characterization and Molecular Simulation of Lignin in Cyrene Pretreatment of Switchgrass. Green Chem 26:3170-3182 (2024) HYPERLINK "https://doi.org/10.1039/D3GC02239K" \o "Link to landing page via DOI"https://doi.org/10.1039/D3GC02239K. Yang, Zhi; Bhagia, Samarthya; O'Neill, Hugh M; Evans, Barbara, R; Ragauskas, Arthur; Davison, Brian H.; Pingali, Sai Venkatesh. (2023), "Deconvoluting structures of component plant biopolymers using deuterium labeled Brassica oleracea stems." ACS Sust Chem Eng 11:1723817248. (2023). doi.org/10.1021/acssuschemeng.3c04076 Shah, Riddhi; Senanayake, Manjula; Zhang, Hong-Hai; Pu, Yunqiao; Biswal, Ajay; Pingali, Sai Venkatesh; Davison, Brian; O'Neill, Hugh, "Evidence for lignin-carbohydrate complexes from studies of transgenic switchgrass and a model lignin - pectin composite." ACS Sust Chem Eng 11:15941-15950. (2023) HYPERLINK "https://gcc02.safelinks.protection.outlook.com/?url=https%3A%2F%2Fdoi.org%2F10.1021%2Facssuschemeng.3c04322&data=05%7C01%7Cdavisonbh%40ornl.gov%7C9d3ed32f49aa4adff8cc08dbd554c29a%7Cdb3dbd434c4b45449f8a0553f9f5f25e%7C1%7C0%7C638338332244913486%7CUnknown%7CTWFpbGZsb3d8eyJWIjoiMC4wLjAwMDAiLCJQIjoiV2luMzIiLCJBTiI6Ik1haWwiLCJXVCI6Mn0%3D%7C3000%7C%7C%7C&sdata=8c8WD9Sb37hjxCVwYlaRCHOEBEREjPKRVY83mfCXraE%3D&reserved=0"https://doi.org/10.1021/acssuschemeng.3c04322 Tan, Luoxi; Scott, Haden L; Smith, Micholas D; Pingali, Sai Venkatesh; O'Neill, Hugh M; Morrell-Falvey, Jennifer L; Katsaras, John; Smith, Jeremy C; Davison, Brian H; Elkins, James G; Nickels, Jonathan D. "Amphiphilic co-solvents modulate structure of membrane domains." ACS Sust Chem Eng 11:1598-1609 (2023). DOI: 10.1021/acssuschemeng.2c06876 Xianzhi Meng, Yunxuan Wang. Austin J. Conte, Shuyang Zhang, Jiae Ryu, Jeong Jae Wie, Yunqiao Pu, Brian H. Davison, Chang Geun Yoo, Arthur J. Ragauskas. Applications of biomass-derived solvents in biomass pretreatment strategies, challenges, and prospects, Bioresource Technol 368: 128280 (2023). https://doi.org/10.1016/j.biortech.2022.128280 Nickels JD, Bonifer KS, Tindall RR, Yahya A, Tan L, Do C, Davison BH and Elkins JG (2022), Improved chemical and isotopic labeling of biomembranes in Bacillus subtilis by leveraging CRISPRi inhibition of beta-ketoacyl-ACP synthase (fabF). Front. Mol. Biosci. 9:1011981. doi: 10.3389/fmolb.2022.1011981 Luoxi Tan, Micholas Dean Smith, Haden L. Scott, Ahmad Yahy, James G. Elkins, John Katsaras, Hugh M. ONeill, Sai Venkatesh Pingali, Jeremy C. Smith, Brian H. Davison, Jonathan D. Nickels: Modelling the partitioning of amphiphilic molecules and co-solvents in biomembranes. J Appl Cryst. 55 (6):1401-1412 (2022). doi.org/10.1107/S1600576722008998. Liang, Luna; Wang, Yun-Yan; Bhagia, Samarthya; Sethuraman, Vaidyanathan; Yang, Zhi; Meng, Xianzhi; Pingali, Sai Venkatesh; Bryant, Nathan; Petridis, Loukas; Smith, Jeremy; Gallego, Nidia; Pu, Yunqiao; Evans, Barbara; O'Neill, Hugh; Davison, Brian; Ragauskas, Arthur. "Chemical and Morphological Structure of Transgenic Switchgrass Organosolv Lignin Extracted by Ethanol, Tetrahydrofuran, and -Valerolactone Pretreatments". ACS Sust Chem Eng 10:9041-9052 (2022) doi: 10.1021/acssuschemeng.2c00948 James G. Elkins, Miguel Rodriguez, Jr., Olivia N. Cannon, Raynella M. Connatser, Gbekeloluwa B. Oguntimein, Michael D. Kass, Brian West, and Brian H. Davison. n-Butanol or isobutanol as a value-added fuel additive to inhibit microbial degradation of stored gasoline. Fuel Communications 12:100072 (2022).  HYPERLINK "https://doi.org/10.1016/j.jfueco.2022.100072" \o "Persistent link using digital object identifier" \t "_blank" https://doi.org/10.1016/j.jfueco.2022.100072 Yan Song; Xianzhi Meng; Wei Jiang; Barbara R. Evans; Haoxi Ben; Yuanming Zhang; Yunqiao Pu; Sai Venkatesh Pingali; Brian H. Davison; Zhang, Sai; Guangting Han; A. Ragauskas. Deuterium incorporation into cellulose: A mini-review of biological and chemical methods. Cellulose 29:4269-4286 (2022). DOI 10.1007/s10570-022-04551-4. Lee R. Lynd, Gregg T. Beckham, Adam M. Guss, Lahiru Jayakody, Eric M. Karp, Costas Maranas, Robert L. McCormick, Daniel Amador-Noguez, Yannick Bomble, Brian H. Davison, Charles Foster, Michael Himmel, Evert Holwerda, Mark S. Laser, Chiam Yu Ng, Daniel G. Olson, Yuriy Romn-Leshkov, Cong Trinh, Gerald A. Tuskan, Vikas Upadhayay, Derek R. Vardon, Lin Wang, Charles E. Wyman, Toward Low-cost Biological and Combined Hybrid Biological/Catalytic Conversion of Cellulosic Biomass to Fuels. Energy Environ. Sci. 15:938-990 (2022) DOI: 10.1039/D1EE02540F Junyan Zhang, Eunji Yoo, Brian H. Davison, Dongxia Liu, Joshua A. Schaidle, Ling Tao, Zhenglong Li, Towards cost-competitive middle distillate fuels from ethanol within a market-flexible C2 platform-based biorefinery concept. Green Chem 23:9534-9548 (2021) DOI: HYPERLINK "https://doi.org/10.1039/D1GC02854E" \t "orcid.blank" 10.1039/D1GC02854E Yang, Z., Foston, M.B., ONeill, H., Urban, V.S., Ragauskas, A., Evans, B.R, Davison, B.H., and Pingali, S. V. Structural Reorganization of Non-Cellulosic Polymers Observed in situ during Dilute Acid Pretreatment by Small Angle Neutron Scattering, ACS Sust Chem Eng 10:314-322 (2021). doi: 10.1021/acssuschemeng.1c06276 Tan, Luoxi; Elkins, James G.; Davison, Brian H.; Kelley EG; Nickels J. Implementation of a self-consistent slab model of bilayer structure in the SasView suite, J Appl Crystall 54: 363-370 Part: 1 (2021). DOI: 10.1107/S1600576720015526 Smith, Micholas D; Pingali, SV; Elkins, JG; Bolmatov, D; Standaert, RF; Nickels, JD; Urban, VS; Katsaras, J; Davison, BH; Smith, JC; Petridis, L. Solvent-induced membrane stress in biofuel production: molecular insights from small-angle scattering and all-atom molecular dynamics simulations, Green Chem 22:8278-8288 (2020). DOI: 10.1039/d0gc01865a Renee M. Happs, Andrew W. Bartling, Crissa Doeppke, Anne E. Harman-Ware, Robin Clark, Erin G. Webb, Mary Biddy, Jin-Gui Chen, Gerald A. Tuskan, Mark F. Davis, Wellington Muchero, and Brian H. Davison, Economic Impact of Yield and Composition Variation in Bioenergy Crops: Populus trichocarpa, Biofuels, Bioproducts and Biorefining 15(1):176-188 (2021). dx.doi.org/10.1002/bbb.2148 Shah, Riddhi; Bhagia, Samarthya; Keum, Jong; Pingali, Sai Venkatesh; Ragauskas, Arthur; Davison, Brian; O'Neill, Hugh. "Structural Insights into Low and High Recalcitrance Natural Poplar Variants using Neutron and X-ray scattering," ACS Sust Chem Eng 8:13838-13849 (2020). doi:10.1021/acssuschemeng.0c05251 Matthew Langholtz, Brian H. Davison, Henriette I. Jager, Laurence Eaton, Latha M. Baskaran, Maggie Davis, and Craig C. Brandt, Increased nitrogen use efficiency in crop production can provide economic and environmental benefits, Science of The Total Environment, 758:143602 (2021). https://doi.org/10.1016/j.scitotenv.2020.143602. Danielle Berardi, Edward Brzostek, Elena Blanc-Bates, Evan H DeLucia, Melannie Hartman, Jeffrey Kent, Debasish Saha, Brian H. Davison, and Tara W Hudiburg, 21st century biogeochemical modeling: Successes and challenges for Century-based models and where do we go from here? (2020), GCB Bioenergy. 12: 774-788. https://doi.org/10.1111/gcbb.12730 Sai Venkatesh Pingali, Micholas Smith, Shih-Hsien Liu, Takat Rawal, Yunqiao Pu, Riddhi Shah, Barbara R Evans, Volker Urban, Brian H. Davison, Charles M Cai, Arthur Ragauskas, Hugh M. O'Neill, Jeremy C Smith, Loukas Petridis. "Deconstruction of biomass enabled by local de-mixing of cosolvents at cellulose and lignin surfaces." PNAS 117: 16776-16781 (2020)  HYPERLINK "https://doi.org/10.1073/pnas.1922883117" https://doi.org/10.1073/pnas.1922883117 Mitra Mazarei, Holly L. Baxter, Avinash Srivastava, Guifen Li, Hongli Xie, Alexandru Dumitrache, Miguel Rodriguez Jr., Jace M. Natzke, Ji-Yi Zhang, Geoffrey B. Turner, Robert W. Sykes, Mark F. Davis, Michael K. Udvardi, Zeng-Yu Wang, Brian H. Davison, Elison B. Blancaflor, Yuhong Tang and Charles Neal Stewart Jr., (2020) Silencing Folylpolyglutamate Synthetase1 (FPGS1) in Switchgrass (Panicum virgatum L.) Improves Lignocellulosic Biofuel Production, Front. Plant Sci., 11: 843  HYPERLINK "https://doi.org/10.3389/fpls.2020.00843" https://doi.org/10.3389/fpls.2020.00843 Kyle Sander, Daehwan Chung, Dawn M. Klingeman, Miguel Rodriguez Jr., Jason Whitham, Brian H. Davison, Janet Westpheling, Steven D. Brown. Gene Targets for Engineering Osmotolerance in Caldicellulosiruptor bescii. Biotechnol. for Biofuels 13:50 (2020) DOI:10.1186/s13068-020-01690-3 Farahi, Rubye; Lereu, Aude; Charrier, Anne; Kalluri, Udaya; Davison, Brian; Passian, Ali. Nanomechanics and Raman spectroscopy of in situ native carbohydrate storage granules for enhancing starch quality and lignocellulosic biomass production." ACS Omega 5(6): 25942602 (2020). doi: 10.1021/acsomega.9b02849 John R. Hannon, Lee R. Lynd, Onofre Andradec, Pahola Thathiana Benavides, Gregg T. Beckham, Mary J. Biddy, Nathan Brown, Mateus F. Chagasg, Brian H. Davison, Thomas Foust, Tassia L. Junqueira, Mark S. Laser, Zhenglong Li, Tom Richard, Ling Tao, Gerald Tuskan, Michael Wang, Jeremy Woods, Charles E. Wyman. Technoeconomic and life cycle analysis of catalytically converting wet ethanol into fungible fuel blendstocks. PNAS 117(23): 12576-12583 (2020) doi/10.1073/pnas.1821684116 Riddhi Shah, Shixin Huang, Sai Venkatesh Pingali, Daisuke Sawada, Yunqiao Pu, Miguel Rodriguez, Jr., Arthur J. Ragauskas, Seong H. Kim, Barbara R. Evans, Brian H. Davison, and Hugh O Neill.  Hemicellulose"Cellulose Composites Reveal Differences in Cellulose Organization after Dilute Acid Pretreatment, Biomacro 20:893-903 (2019). https://doi.org/10.1021/acs.biomac.8b01511 Barbara R. Evans, Marcus Foston, Hugh M. ONeill, David Reeves, Caroline Rempe, Kathi McGrath, Arthur J. Ragauskas, Brian H. Davison. Production of deuterated biomass by cultivation of Lemna minor (duckweed) in D2O. Planta 249(5):14651475. (2019) DOI: 10.1007/s00425-019-03097-3 Evert K. Holwerda, Robert S. Worthen, Ninad Kothari, Ronald C. Lasky, Brian H. Davison, Chunxiang Fu, Zeng-Yu Wang, Richard A. Dixon, Ajaya K. Biswal, Debra Mohnen, Richard S. Nelson, Holly L. Baxter, Mitra Mazarei, Wellington Muchero, Gerald A. Tuskan, Charles M. Cai, Erica E. Gjersing, Mark F. Davis, Michael E. Himmel, Charles E. Wyman, Paul Gilna and Lee R. Lynd. Multiple levers for overcoming the recalcitrance of lignocellulosic biomass, Biotechnol. for Biofuels 12:15 (2019). doi.org/10.1186/s13068-019-1353-7. Hu, Michael, Bischoff, Brian; Morales-Rodriguez, Marissa; Gray, Kevin; Davison, Brian; Superhydrophobic or hydrophilic porous metallic/ceramic tubular membranes for continuous separations of biodieselwater W/O and O/W emulsions, Ind. Eng. Chem. Res. 58:1114-1122 (2019). doi:10.1021/acs.iecr.8b04888 Samarthya Bhagia, Xianzhi Meng, Barbara R. Evans, John R. Dunlap, Garima Bali, Jihua Chen, Kimberly Shawn Reeves, Hoi Chun Ho, Brian H. Davison, and Arthur J. Ragauskas. Ultrastructure and Enzymatic Hydrolysis of Deuterated Switchgrass, SciRep 8:13226 (2018). doi: 10.1038/s41598-018-31269-w  HYPERLINK "https://www.sciencedirect.com/science/article/pii/S0960852418311283?utm_campaign=STMJ_75273_AUTH_SERV_PPUB&utm_medium=email&utm_dgroup=&utm_acid=11901102&SIS_ID=0&dgcid=STMJ_75273_AUTH_SERV_PPUB&CMX_ID=&utm_in=DM377679&utm_source=AC_30" \l "!" Samarthya Bhagia,  HYPERLINK "https://www.sciencedirect.com/science/article/pii/S0960852418311283?utm_campaign=STMJ_75273_AUTH_SERV_PPUB&utm_medium=email&utm_dgroup=&utm_acid=11901102&SIS_ID=0&dgcid=STMJ_75273_AUTH_SERV_PPUB&CMX_ID=&utm_in=DM377679&utm_source=AC_30" \l "!" Yunqiao Pu,  HYPERLINK "https://www.sciencedirect.com/science/article/pii/S0960852418311283?utm_campaign=STMJ_75273_AUTH_SERV_PPUB&utm_medium=email&utm_dgroup=&utm_acid=11901102&SIS_ID=0&dgcid=STMJ_75273_AUTH_SERV_PPUB&CMX_ID=&utm_in=DM377679&utm_source=AC_30" \l "!" Barbara R. Evans,  HYPERLINK "https://www.sciencedirect.com/science/article/pii/S0960852418311283?utm_campaign=STMJ_75273_AUTH_SERV_PPUB&utm_medium=email&utm_dgroup=&utm_acid=11901102&SIS_ID=0&dgcid=STMJ_75273_AUTH_SERV_PPUB&CMX_ID=&utm_in=DM377679&utm_source=AC_30" \l "!" Brian H. Davison,  HYPERLINK "https://www.sciencedirect.com/science/article/pii/S0960852418311283?utm_campaign=STMJ_75273_AUTH_SERV_PPUB&utm_medium=email&utm_dgroup=&utm_acid=11901102&SIS_ID=0&dgcid=STMJ_75273_AUTH_SERV_PPUB&CMX_ID=&utm_in=DM377679&utm_source=AC_30" \l "!" Arthur J. Ragauskas. Hemicellulose characterization of deuterated switchgrass. Bioresource Technol. 269:567-570 (2018).  HYPERLINK "https://doi.org/10.1016/j.biortech.2018.08.034" doi.org/10.1016/j.biortech.2018.08.034. Kyle Sander, Daehwan Chung, Doug Hyatt, Janet Westpheling, Dawn M. Klingeman, Miguel Rodriguez Jr., Nancy L. Engle, Timothy J. Tschaplinski, Brian H. Davison, Steven D. Brown. Rex in Caldicellulosiruptor bescii: Novel Regulon Members and its Effect on the Production of Ethanol and Overflow Metabolites. Microbiol. Open 8:e00639 (2019) DOI: HYPERLINK "http://dx.doi.org/10.1002/mbo3.639" \t "_blank" 10.1002/mbo3.639 Charrier, Anne M., Lereu, AL, Farahi, RH, Davison, BH, Passian, Ali. Nanometrology of Biomass for Bioenergy: The Role of Atomic Force Microscopy and Spectroscopy in Plant Cell Characterization, Frontiers Energy Res 6: e11. (2018) DOI:10.3389/fenrg.2018.00011 Arkin, AP, Cottingham, RW, , Davison BH, et al. (81 co-authors), The DOE System Biology Knowledgebase Project (KBase) Nature Biotechnol. 36:566. doi: 10.1038/nbt.4163 (2018). Daisuke Sawada, Udaya Kalluri, Hugh ONeill, Volker Urban, Paul Langan, Brian Davison, Sai Venkatesh Pingali. Tension wood structure and morphology conducive for better enzymatic digestion. Biotechnol for Biofuels, 11:44 (2018) doi: 10.1186/s13068-018-1043-x Gbekeloluwa B. Oguntimein, Miguel Rodriguez, Jr., Alexandru Dumitrache, Todd Shollenberger, Stephen R. Decker, Brian H. Davison, and Steven D. Brown. Anaerobic Microplate Assay for Direct Microbial Conversion of Switchgrass and Avicel using Clostridium thermocellum. Biotech. Lett. 40(2): 303-308. DOI: 10.1007/s10529-017-2467-2 (2018) Derya Vural, Catalin Gainaru, Hugh ONeill, Yunquiao Pu, Micholas Dean Smith, Sai Venkatesh Pingali, Eugene Mamontov, Brian H. Davison, Alexei P. Sokolov, Arthur J. Ragauskas, Jeremy C. Smith, Loukas Petridis. Impact of hydration and temperature history on the structure and dynamics of lignin, Green Chem. 20(7): 1602-1611 (2018) DOI: 10.1039/c7gc03796a Yoo, CG; Dumitrache, A; Muchero, W; Natzke, J; Akinosho, H; Li, M; Sikes, RW; Brown, SD; Davison, B; Tuskan, GA; Pu, YQ; Ragauskas, AJ. Significance of Lignin S/G Ratio in Biomass Recalcitrance of Populus trichocarpa Variants for Bioethanol Production. ACS Sust. Chem. Engr. 6(2): 2162-2168 DOI: 10.1021/acssuschemeng.7b03586 (2018) Ajaya K. Biswal, MA Atmodjo, M Li, HL Baxter, CG Yoo, Y Pu, Y-C Lee, M Mazarei, IM Black, J-Y Zhang, H Ramanna, AL Bray, ZR King, PR LaFayette, S Pattathil, BS Donohoe, SS Mohanty, D Ryno, K Yee, OA Thompson, M Rodriguez Jr, A Dumitrache, J Natzke, K Winkeler, C Collins, X Yang, L Tan, RW Sykes, EL Gjersing, A Ziebell, GB Turner, SR Decker, MG Hahn, BH Davison, MK Udvardi, J Mielenz, MF Davis, RS Nelson, WA Parrott, AJ Ragauskas, CN Stewart, Jr. and D Mohnen. Sugar release and growth of biofuel crops are improved by downregulation of pectin biosynthesis, Nature Biotechnol. (2018) doi:10.1038/nbt.4067. Baxter, Holly, Mitra Mazarei, Alexandru Dumitrache, Jace Natzke, Miguel Rodriguez, Jiqing Gou, Chunxiang Fu, Robert Sykes, Geoffrey Turner, Mark Davis, Steven Brown, Brian Davison, Zeng-Yu Wang, C. Neal Stewart, Transgenic miR156 switchgrass in the field: growth, recalcitrance, and rust susceptibility, Plant Biotechnol. J. 16:39-49 (2018). DOI: 10.1111/pbi.12747 Paul Gilna, Lee R. Lynd, Debra Mohnen, Mark F. Davis, and Brian H. Davison. Progress in understanding and overcoming biomass recalcitrance: a Bioenergy Science Center (BESC) perspective. Biotechnol for Biofuels, 10:285 (2017), DOI 10.1186/s13068-017-0971-1;  HYPERLINK "http://em.rdcu.be/wf/click?upn=KP7O1RED-2BlD0F9LDqGVeSDuTXjwDetyAtHzgLZY0IW0-3D_zIH31VMQ4vMDUQT53Anw53Avw1pawh805m4gRHmmoaxZfhIEQzLWoq5aNo82xorLuwVqaEefkyHxNIry9b7IRFgNxeFcPW1vf8RpZS1dBcgYr8AZPJa-2Blte-2B0EbkHopGsEgCbhxrJw5ZQMrLvlCk4K-2BUAgQO82vI8Bic3HTrmMPugWeEkMiUWBmvyTnzVNNAjJiM4rc4-2BNzGI-2BV49YMEbmyJoZdng7xrAoyJ6A7SUplVxtUVyVT496qoKKz4jwWr75VW34fe80oPzUCfjNpFoQ-3D-3D" http://rdcu.be/zWXs Kyle Sander, Kei-ji G. Asano, Deepak Bhandari, Gary J. Van Berkel, Steven D. Brown, Brian Davison, Timothy J. Tschaplinski. Targeted Redox and Energy Cofactor Metabolomics in Clostridium thermocellum and Thermoanaerobacterium saccharolyticum. Biotechnol Biofuels 10:270 (2017) DOI 10.1186/s13068-017-0960-4;  HYPERLINK "http://em.rdcu.be/wf/click?upn=KP7O1RED-2BlD0F9LDqGVeSDq3HcNnL86HIM1zCARlUuc-3D_zIH31VMQ4vMDUQT53Anw53Avw1pawh805m4gRHmmoayuif-2FE50YmGd8voDpXOxxSaiy1Dg75o9zwGHLdRzuF6gokHLKFhx23bX738bQofPjjs1BqCuvJA3yFPxQacIDdkzCY76kFt0-2BJOCmMNUPa2J65wkBx5F0FX4h2zWYJRJMqSiIvFTwES-2FzjWffIzyokyGCbFH3R4b0fruuZdnRAGpXeZKI1zu4lEXD2AS8hTmvQszhR6fQY-2BfnwawUxrB5T2MTtqlT2PbR2lZqlVWutAg-3D-3D" http://rdcu.be/zWXC RS Nelson, CN Stewart Jr., J Gou, S Holladay, L Gallego Giraldo, A Flanagan, DGJ Mann, H Hisano, WA Wuddineh, CR Poovaiah, A Srivastava, AK Biswal, H Shen, LL Escamilla Trevio, J Yang, CF Hardin, R Nandakumar, C Fu, J Zhang, X Xiao, R Percifield, F Chen, JL Bennetzen, M Udvardi, M Mazarei, RA Dixon, Z Y Wang, Y Tang, D Mohnen and BH Davison, Development and use of a switchgrass (Panicum virgatum L.) transformation pipeline by the BioEnergy Science Center to evaluate plants for reduced cell wall recalcitrance. Biotechnol for Biofuels, 10:309 (2017),  HYPERLINK "https://doi.org/10.1186/s13068-017-0991-x" \t "_blank" doi.org/10.1186/s13068-017-0991-x Anne E. HarmanWare, Renee M. Happs, Brian H. Davison, and Mark F. Davis, The effect of coumaryl alcohol incorporation on the structure and composition of lignin dehydrogenation polymers. Biotechnol Biofuels (2017) 10:281; DOI 10.1186/s1306801709622;  HYPERLINK "http://em.rdcu.be/wf/click?upn=KP7O1RED-2BlD0F9LDqGVeSJxG9rCbqKkWGIQ-2FvC8zVlM-3D_zIH31VMQ4vMDUQT53Anw53Avw1pawh805m4gRHmmoax0MkOef3VttMrHR-2BkXTpbEiloeQsMfEJXss06kRNAmH-2BFDsEZThms7yQOPLahDMfJ-2BaJB-2B01YRc7oqBxE5s7fiqDoUyS5uBPaKzyaDEzXkOnX3iGCZahWyGMhiUeIbcMDOplBl7BGAcJGY6ZtoZxCbVQHqN4Zw-2BLOfWtAqZyzxM-2BQaxZiQi4I1bndxtoNr6Sb88SMQVvQh3SCUPYQp03RTknIa1AcgdPtuvZG7EVWcmw-3D-3D" http://rdcu.be/zWXz Yoo, Chang Geun; Pu, Yunqiao; Meng, Xianzhi; Evans, Barbara; Muchero, W; Yee KL; Rodriguez, M, Bali, G; Engle NL, etc. and reorder names; Davison, Brian; Ragauskas, Arthur. Insights of biomass recalcitrance in Populus trichocarpa natural variants for biomass conversion. Green Chem 19:5467-5478 (2017) DOI: 10.1039/c7gc02219k. Meng, Xianzhi; Evans, Barbara; Yoo, Chang Geun; Pu, Yunqiao; Davison, Brian; Ragauskas, Arthur. "The effect of in-vivo deuteration on structure of switchgrass lignin." ACS Sus Chem Eng 5: 8004-8010 (2017) DOI: 10.1021/acssuschemeng.7b01527 O'Neill, H; SV Pingali, L Petridis, JH He, E Mamontov, L Hong, V Urban, B Evans, P Langan, JC Smith, BH Davison. Dynamics of water bound to crystalline cellulose, Sci Reports 7:11840 (2017) DOI: 10.1038/s41598-017-12035-w Jeffrey V. Zurawski, Piyum A. Khatibi, Hannah O. Akinosho, Christopher T. Straub, Scott H. Compton, Jonathan M. Conway, Laura L. Lee, Arthur J. Ragauskas, Brian H. Davison, Michael W.W. Adams, and Robert M. Kelly. Bioavailability of carbohydrate content in natural and transgenic switchgrasses for the extreme thermophile Caldicellulosiruptor bescii, Appl. Env. Microbiol. 83:unsp e00969 (2017) DOI: 10.1128/AEM.00969-17. Evans, B. R., G. Bali, A. J. Ragauskas, H. ONeill, R. Shah, Hugh ONeill, Cory Howard, Fayola Lavenhouse, Dawn Ramirez, Kelly Weston, Kelly Ramey, Valerie Cangemi, Brian Kinney, Claudia Partee, Teresa Ware, and B. H. Davison, Allelopathic effects of exogenous phenylalanine: A comparison of four monocot species Planta 246:673-685 (2017) doi:10.1007/s00425-017-2720-x Zhenglong Li, Z., A.W. Lepore, M.F. Salazar, Guo S.F., B.H. Davison, Z. Wu, C.K. Narula, Selective Conversion of Bio-derived Ethanol to Renewable BTX over Ga-ZSM-5, Green Chem 19:4344-4352 (2017). DOI: 10.1039/c7gc01188a Dumitrache, Alexandru, Allison Tolbert, Jace Natzke, Steven D. Brown, Brian H. Davison, Arthur J. Ragauskasa, Cellulose and Lignin Colocalization at the Plant Cell Wall Surface Limits Microbial Hydrolysis of Populus Biomass, Green Chem. 19:2275-2285 (2017) DOI: 10.1039/c7gc00346c Farahi, R.H., A. Charrier, A. Tolbert, A. L. Lereu, A. Ragauskas, B. H. Davison, and A. Passian, Plasticity, elasticity, and adhesion energy of plant cell walls: nanometrology of lignin loss using atomic force microscopy, Sci Reports 7 (152) (2017) Lepore, A. W., L. Zhenglong, B. H. Davison, G-S Foo, Z Wu, and C. K. Narula, Catalytic Dehydration of Biomass Derived 1-Propanol to Propene over M-ZSM-5 (M=H, V, Cu, or Zn), Indust. Eng. Chem. Res., 56(1) (2017). doi:10.1021/acs.iecr.7b00592 Dumitrache, A., D. M. Klingeman, J. M. Natzke, M. Rodriguez, Jr., R. J. Giannone, R. L. Hettich, B. H. Davison, and S. D. Brown, Specialized activities and expression differences for Clostridium thermocellum biofilm and planktonic cells, Sci Reports 7:1-14 (2017). Pingali, S. V., V. S. Urban, W. T. Heller, J. McGaughey, H. ONeill, M. Foston, H. Li, C. E. Wyman, D.A.Myles, P. Langan, A. Ragauskas, B. Davison, and B. R. Evans, Understanding Multiscale Structural Changes During Dilute Acid Pretreatment of Switchgrass and Poplar, ACS Sustainable Chemistry & Engineering 5:426-435 (2017). Dumitrache, A., J. M. Natzke, M. Rodriguez, Jr., K. L. Yee, O. A. Thompson, C. R. Poovaiah, S. Hui, M. Mazarei, H. L. Baxter, N. L. Engle, C. Fu, Z.-Y. Wang, A. K. Biswal, G. Li, Y. Tang, T. J. Tschaplinski, N.C. Stewart, R. Dixon, R. S. Nelson, D. A. Mohnen, J. R. Mielenz, S. D. Brown, and B. H. Davison, Transgenic Switchgrass (Panicum virgatum L.) Targeted for Reduced Recalcitrance to Bioconversion: A Two-Year Comparative Analysis of Field-grown lines Modified for Target Gene or Genetic Element Expression, Plant Biotechnol. J. 15:688-697 (2017). DOI: 10.1111/pbi.12666 Li, Z Zhenglong, Andrew Lepore, Brian H. Davison, and Chaitanya K. Narula, Catalytic Conversion of Biomass-Derived Ethanol to Liquid Hydrocarbon Blendstock: Effect of Light Gas Recirculation, Energy Fuels, 30:10611-10617 (2016) DOI: 10.1021/acs.energyfuels.6b02562 Herring, C. D., W. R. Kenealy, A. J. Shaw, S. F. Covalla, D. G. Olson, J. Zhang, W. R. Sillers, V. Tsakraklides, J. S. Bardsley, S. R. Rogers, P. G. Thorne, J. P. Johnson, A. Foster, I. D. Shikhare, D.M. Klingeman, S. D. Brown, B. H. Davison, L. R. Lynd, and D. A. Hogsett, Strain and Bioprocess Improvement of a Thermophilic Anaerobe for the Production of Ethanol from Wood, Biotechnol. for Biofuels 9:125 (2016); DOI: 10.1186/S13068-016-0536-8. Passian, A., R. H. Farahi, and B. H. Davison, Optonanomechanical Spectroscopic Imaging, Imaging & Microscopy (2016); http://www.imaging-git.com/science/scanning-probe-microscopy/optonanomechanical- spectroscopic-imaging. Davison, B. H. and J. Lievense, Technology Challenges and Opportunities in Commercializing Industrial Biotechnology, Chem. Eng. Prog. 112(6):35 (2016). Paye, J. M. D., A. Guseva, S. K. Hammer, E. Gjersing, M. F. Davis, B. H. Davison, J. Olstad, B. S. Donohoe, T. Y. Nguyen, C. E. Wyman, S. Pattathil, M. G. Hahn, and L. R. Lynd, Biological Lignocellulose Solubilization: Comparative Evaluation of Biocatalysts and Enhancement via Cotreatment, Biotechnol. for Biofuels 9:8 (2016); DOI: 10.1186/s13068-015-0412-y. Dumitrache, A., H. Akinosho, M. Rodriguez, Jr., X. Meng, C.G. Yoo, J. Natzke, N.L. Engle, R.W. Sykes, T.J. Tschaplinski, W. Muchero, A.J. Ragauskas, B. H. Davison and S. D. Brown, Consolidated Bioprocessing of Populus Using Clostridium (Ruminiclostridium) thermocellum: ACase Study on Lignin Composition and Structure, Biotechnol. for Biofuels 9:31 (2016); DOI: 10.1186/s13068-016-0445-x. Passian, A., R. H. Farahi, and B. H. Davison, Exploring the Nano-World of Plant Cells with Hybrid Photonic-Mechanical Forces, In Focus 40:49 (2015). Sander, K., C. M. Wilson, M. Rodriguez, Jr., D. M. Klingeman, T. Rydzak, B. H. Davison, and S. Brown, Clostridium thermocellum DSM 1313 Transcriptional Responses to Redox Perturbation, Biotechnol. for Biofuels 8:211 (2015); DOI: 10.1186/s13068-015-03949. Narula, C. K., Z. Li, E. M. Casbeer, R. A. Gieger, M. Moses-DeBusk, M. Keller, M. V. Buchanan, and B.H. Davison, Heterobimetallic Zeolite InV-Zsm-5, Enables Efficient Conversion of Biomass Derived Ethanol to Renewable Hydrocarbons, Sci. Reports 5:16039 (2015); DOI: 10.1038/srep16039. Currie, D. H., B. Raman, C. M. Gowen, T. J. Tschaplinski, M. L. Land, S. D. Brown, S. F. Covalla, D. M. Klingeman, Z. K. Yang, N. L. Engle, C. M. Johnson, M. Rodriguez, A. J. Shaw, W. R. Kenealy, L. R. Lynd, S. S. Fong, J. R. Mielenz, B. H. Davison, D. A. Hogsett, and C. D. Herring, Genome-Scale Resources for Thermoanaerobacterium saccharolyticum, BMC Systems Biology 9:30 (2015); DOI: 10.1186/s12918-015-0159-x. Tetard, L, A. Passian, R. H. Farahi, T. Thundat, and B. H. Davison Opto-Nanomechanical Spectroscopic Material Characterization, Nature Nanotechnol. 10:870877 (2015); DOI: 10.1038/nnano.2015.168. Davison, B. H., C. C. Brandt, A. M. Guss, U. C. Kalluri, A. V. Palumbo, R. L. Stouder, and E. G. Webb, The Impact of Biotechnological Advances on the Future of U.S. Bioenergy, Biofuels, Bioprod. Biorefin. 9:454467 (2015); DOI: 10.1002/bbb.1549. Slater, S. C., B. A. Simmons, T. S. Rogers, M. F. Phillips, K. Nordahl, and B. H. Davison, The DOE Bioenergy Research Centers: History, Operations, and Scientific Output, Bioenerg. Res. 8(3):881896 (2015); DOI:10.1007/s12155-015-9660-8. Yee, K. L., M. Rodriguez, Jr., C. Y. Hamilton, S. D. Hamilton-Brehm, O. A. Thompson, J. G. Elkins, B.H. Davison, and J. R. Mielenz, Fermentation of Dilute Acid Pretreated Populus by Clostridium thermocellum, Caldicellulosiruptor bescii, and Caldicellulosiruptor obsidiansi, Bioenerg. Res. 8(3):10141021 (2015); DOI: 10.1007/s12155-015-965. Evans, B. R., G. Bali, M. Foston, A. J. Ragauskas, H. ONeill, R. Shah, J. McGaughey, D. Reeves, C.Rempe, and B. H. Davison, Production of Deuterated Switchgrass by Hydroponic Cultivation, Planta 242:215222 (2015); DOI: 10.1007/s00425-015-2298-0. Baxter, H. L., C. R. Poovaiah, K. L. Yee, M. Mazarei, M. Rodriguez, Jr., O. A. Thompson, H. Shen, G.B. Turner, S. R. Decker, R. W. Sykes, F. Chen, M. F. Davis, J. R. Mielenz, B. H. Davison, R. A. Dixon, C. N. Stewart, Jr., Field Evaluation of Transgenic Switchgrass Plants Overexpressing PvMYB4 for Reduced Biomass Recalcitrance, Bioenerg. Res. 8(3):910921 (2015); DOI: 10.1007/s12155-014-9570-1. Kalluri, U. C., H. Yin, X. Yang, and B. H. Davision, Systems and Synthetic Biology Approaches to AlterPlant Cell Walls and Reduce Biomass Recalcitrance, Plant Biotechnol. J. 12:12071216 (2014); DOI:10.1111/pbi.12283. Zaharov, V. V., R. H. Farahi, P. J. Snyder, B. H. Davison, and A. Passian, Karhunen-Loeve Treatment to Remove Noise and Facilitate Data Analysis in Sensing, Spectroscopy and Other Applications, Analyst 139:59285936 (2014); DOI: 10.1039/C4AN01300J. Ragauskas, A. J., G. T. Beckham, M. J. Biddy, R. Chandra, F. Chen, M. F. Davis, B. H. Davison, R.A. Dixon, P. Gilna, M. Keller, P. Langan, A. K. Naskar, J. N. Saddler, T. J. Tschaplinski, G. A. Tuskan, and C.E. Wyman, Lignin Valorization: Improving Lignin Processing in the Biorefinery, Science 344:709+ (2014); DOI:10.1126/science.1246843. Yee, Kelsey L., M. Rodriguez, Jr., O. A. Thompson, C. Fu, Z.-Y. Wang, B. H. Davison, J. R. Mielenz, Consolidated Bioprocessing of Transgenic Switchgrass by an Engineered and Evolved Clostridium thermocellum Strain, Biotechnology for Biofuels 7:75 (2014); DOI: 10.1186/1754-6834-7-75. Yang, S., C. Pan, G. B. Hurst, L. Dice, B. H. Davison, and S. D. Brown, Elucidation of Zymomonas mobilis Physiology and Stress Responses by Quantitative Proteomics and Transcriptomics, Front. Microbiol. 5, Article 246 (2014); DOI: 10.3389/fmicb.2014.00246. Pingali, S. V., H. M. ONeill, L. He, Y. Nishiyama, Y. Melnichenko, V. S. Urban, B. H. Davison, and P.Langan, Morphological Changes in the Cellulose and Lignin Components of Biomass Occur at Different Stages During Steam Pretreatment, Cellulose 21(2):873878 (2014); DOI: 0.1007/s10570-013-0162-6. He, J., S. V. Pingali, S. P. S. Chundawat, A. Pack, A. D. Jones, P. Langan, B. H. Davison, V. Urban, B.Evans, and H. ONeill, Controlled Incorporation of Deuterium into Bacterial Cellulose, Cellulose 21(2):927936 (2014); DOI: 10.1007/s10570-013-0067-4. Sangha, A. K., R. F. Standaert, B. H. Davison, M. F. Davis, J. C. Smith, and J. M. Parks, Chemical Factors that Control Lignin Polymerization, J. Phys. Chem. Part B: Biophysical Chemistry, Biomaterials, Liquids, and Soft Matter 118:164170 (2014); DOI: 10.1021/jp411998t. X-ray Crystallographic Studies of Family 11Xylanase in Complex with Oligosaccharides:Implications for the Mechanism of RetainingGlycosidasesQun Wan1, Andrey Kovalevsky1, Qiu Zhang1, Scott Hamilton-Brehm1, RosalyndUpton2, Kevin Weiss1, Marat Mustyakimov1, David Graham2*, Leighton Coates1*,Paul Langan1*X-ray Crystallographic Studies of Family 11Xylanase in Complex with Oligosaccharides:Implications for the Mechanism of RetainingGlycosidasesQun Wan1, Andrey Kovalevsky1, Qiu Zhang1, Scott Hamilton-Brehm1, RosalyndUpton2, Kevin Weiss1, Marat Mustyakimov1, David Graham2*, Leighton Coates1*,Paul Langan1*X-ray Crystallographic Studies of Family 11Xylanase in Complex with Oligosaccharides:Implications for the Mechanism of RetainingGlycosidasesQun Wan1, Andrey Kovalevsky1, Qiu Zhang1, Scott Hamilton-Brehm1, RosalyndUpton2, Kevin Weiss1, Marat Mustyakimov1, David Graham2*, Leighton Coates1*,Paul Langan1*Langan, P., L. Petridis, H. M. ONeill, S. V. Pingali, M. Foston, Y. Nishiyama, R. Schulz, B. Lindner, B.L. Hanson, S. Harton, W. T. Heller, V. Urban, B. R. Evans, S. Gnanakaran, A. J. Ragauskas, J. C. Smith, and B.H. Davison Common Processes Driving the Thermochemical Pretreatment of Lignocellulosic Biomass, Green Chem. 16:6368 (2014); DOI:10.1039/C3GC41962B. Yang, S., C. Pan, T. J. Tschaplinski, G. B. Hurst, N. L. Engle, W. Zhou, P. A. Dam, Y. Xu, M. Rodriguez, Jr., L.Dice, C. M. Johnson, B. H. Davison, and S. D. Brown, Systems Biology Analysis of Zymomonas mobilis ZM4 Ethanol Stress Responses, PLoS ONE 7(8):e68886 (2013); DOI: 10.1371/journal.pone.0068886. Brown, S. D., D. M. Klingeman, C. M. Johnson, A. Clum, A. Aerts, A. Salamov, A. Sharma, M. Zane, K.Barry, I. V. Grigoriev, B. H. Davison, L. R. Lynd, P. Gilna, H. Hau, D. A. Hogsett, and A. C. Froehlich, Genome Sequences of Industrially Relevant Saccharomyces cerevisiae Strain M3707, Isolated from a Sample of Distillers Yeast and Four Haploid Derivatives, ASM Genome Announcements 1(3):e00323-13 (2013); DOI:10.1128/genomeA.00323-13. Pu, Y., F. Hu, F. Huang, B. H. Davison, and A. J. Ragauskas, Assessing the Molecular Structure Basis for Biomass Recalcitrance During Dilute Acid and Hydrothermal Pretreatments, Biotechnol. for Biofuels 6:15 (2013); DOI: 10.1186/1754-6834-6-15. Davison, B. H., J. Parks, M. F. Davis and B. S. Donohoe, Plant Cell Walls: Basics of Structure, Chemistry, Accessibility and the Influence on Conversion, Chap. 3 inAqueous Pretreatment of Plant Biomass for Biological and Chemical Conversion to Fuels and Chemicals, C. E. Wyman, Editor, John Wiley & Sons, Ltd. (2013). Tschaplinski, T. J., R. F. Standaert, N. L. Engle, M. Z. Martin, A. K. Sangha, J. M. Parks, J. C. Smith, R.Samuel, N. Jiang, Y. Pu, A. J. Ragauskas, C. Y. Hamilton, C. Fu, Z.-Y. Wang, B. H. Davison, R.A.Dixon, and J.R. Mielenz, Down-Regulation of the Caffeic Acid O-Methyltransferase Gene inSwitchgrass Reveals a Novel Monolignol Analog, Biotechnol. for Biofuels 5:71 (2012); http://www.biotechnologyforbiofuels.com/content/5/1/71. Langan, P., B. R. Evans, M. Foston, W. T. Heller, H. M. ONeill, L. Petridis, S. V. Pingali, A. J. Ragauskas, J.C. Smith, V. S. Urban, B. H. Davison, Neutron Technologies for Bioenergy Research, Industrial Biotechnol. 8(4):209216 (2012); DOI: 10.1089/ind.2012.0012. Tetard, L., A. Passian, S. Jung, A. J. Ragauskas, and B. H. Davison. Development of New Methods in Scanning Probe Microscopy for Lignocellulosic Biomass Characterization, Industrial Biotechnol. 8:245249 (2012); DOI: 10.1089/ind.2012.0017. Davison, B. H., Overview: The Increasing Importance and Capabilities of Biomass Characterization, Industrial Biotechnology 8:189190 (2012); DOI: 10.1089/ind.20121527. Tetard, L., A. Passian, R. H. Farahi, B. H. Davison, S. Jung, A. J. Ragauskas, A. L. Lereu and T. Thundat,  HYPERLINK "http://apps.webofknowledge.com/full_record.do?product=WOS&search_mode=GeneralSearch&qid=12&SID=4EEEAFKeK8f5Om7NdlP&page=1&doc=3" Nanometrology of Delignified Populus Using Mode Synthesizing Atomic Force Microscopy, Nanotechnology 22:465702 (2011); DOI: 10.1088/0957-4484/22/46/465702. Tetard, L, A. Passian, R. H. Farahi, B. H. Davison, A. L. Lereu, and T, Thundat, Optical and Plasmonic Spectroscopy with Cantilever Shaped Materials, J. Phys. D: Appl. Phys. 44:445102 (2011); DOI: 10.1088.0022-3727/44/44/445102. Studer, M. E., J. D. DeMartini, M. F. Davis, R. W. Sykes, B. H. Davison, M. Keller, G. A. Tuskan, and C.E.Wyman, Lignin Content in Natural Populus Variants Affects Sugar Release, PNAS 108:63006305 (2011); DOI: 10.1073/pnas.1009252108. Davison, B., T. Donohue, P. Gilna J. D. Keasling, and H. Youngs, Commentary: Q&A Roundtable on U.S. Bioenergy Research, Industrial Biotechnology 7(4):264266 (2011); DOI:10.1089/ind.2011.7.264. Tetard, L, A. Passian, R. H. Farahi, B. H. Davison, and T. Thundat, Optomechanical Spectroscopy with Broadband Interferometric and Quantum Cascade Laser Sources, Optics Letters 36:32513253 (2011). Mohnen, D., A. Biswal, H. Zhangying, S. Tipton, G.-A. Ivana, et al., The Bioenergy Science Center (BESC) and Overcoming Recalcitrance of Populus to Biofuel Production, In Vitro Cellular & Developmental Biology-Animal 46(1 Supplement):4848 (2010). Tetard, L., A. Passian, R. H. Farahi, U. C. Kalluri, B. H. Davison, and T. Thundat, Spectroscopy and Atomic Force Microscopy of Biomass, Ultramicroscopy 110:701707 (2010); DOI: 10.1016/j.ultramic.2010.02.0. Pu, Y. Q., F. Chen, A. Ziebell, B. H. Davison, A. J. Ragauskas, NMR Characterization of C3H and HCT Down-Regulated Alfalfa Lignin, Bioenergy Res. 2:198208 (2009); DOI: 10.1007/s12155-9056-8. Kim, S., T. Rahman, L. R. Senesac, B. H. Davison, and T. Thundat. Piezoresistive Cantilever Array Sensor for Consolidated Bioprocess Monitoring, SCANNING 31:204210 (2009); DOI: 10.1002/sca.20159. Borole, A. P., C. Y. Hamilton, T. A. Vishnivetskaya, D. Leak, C. Andras, J. Morrell-Falvey, B. H. Davison, and M. Keller, Integrating Engineering Design Improvements with Exoelectrogen Enrichment Process toIncrease Power Output from Microbial Fuel Cells, J. Power. Sources 191:520527 (2009); DOI:10.1016/j.jpowsour.2009.02.006. Davison, B. H., M. Keller, and V. S. Fowler, The Goals and Research of the BioEnergy Sciences Center (BESC): Developing Cost-effective and Sustainable Means of Producing Biofuels by Overcoming Biomass Recalcitrance, Bioenerg. Res. 2:177178 (2009); DOI: 10.1007/s12155-009-9057-7. Yang, S., T. J. Tschaplinski, N. L. Engle, S. L. Carroll, S. L. Martin, B. H. Davison, A. V. Palumbo, M. Rodriguez, Jr., and S. D. Brown, Transcriptomic and Metabolomic Profiling of Zymomonas mobilis During Aerobic and Anaerobic Fermentations, BMC Genomics 10:34 (2009). DOI:10.1186/1471-2164-10-34. Cole, K., B. Dale, B. Davison, B. Erickson, and M. Parr, Possible Impacts of the US EPA Notice of Proposed Rulemaking on the Biofuels Industry, Industrial Biotechnol. 4(4):322333 (2009). Barton, J. W., C. D. Vodraska, S. A. Jones, and B. H. Davison, Solubility of Toluene, Benzene and TCE in High-Microbial Concentration Systems, Chemosphere 73:17371740 (2008). Borole, A. P. and B. H. Davison, Improving Activity of Salt-Lyophilized Enzymes in Organic Media, Appl.Biochem. Biotechnol, 146:215222 (2008); DOI: 10.1007/s12010-007-8033-y. Lynd, L. R., M. S. Laser, D. Bransby, B. E. Dale, B. Davison, R. Hamilton, M. Himmel, M. Keller, J. D. McMillan, J. Sheehan, and C. E. Wyman, How Biotech Can Transform Biofuels, Nature Biotechnology 26(2):169172 (2008). DOI 10.1038/nbt0208-169. Borole, A. P. and B. H. Davison. Techno-Economic Analysis of Biocatalytic Processes for Production of Alkene Epoxides, Applied Biochem. Biotechnol. 137:437449 (2007). Davison, B. H., A. J. Ragauskas, R. Templer, T. Tschaplinski, J. R. Mielenz, Response to Browner letter: Measuring the Efficiency of Biomass Energy, Science 312(5781):17441745 (2006). VerBerkmoes, N. C., M. B. Shah, P. K. Lankford, D. A. Pelletier, M. B. Strader, D. L. Tabb, W. H. McDonald, J.W. Barton, G. B. Hurst, L. Hauser, B. H. Davison, J. T. Beatty, C. S. Harwood, F. R. Tabita, R.L. Hettich, and F. W. Larimer, Determination and Comparison of the Baseline Proteomes of the Versatile Microbe Rhodopseudomonas palustris Under Its Major Metabolic States, J. Proteome Res. 5:287298 (2006). Ragauskas, A. J., C. K. Williams, B. H. Davison, G. Britovsek, J. Cairney, C. A. Eckert, J. Frederick, J. P. Hallett, D. Leak, C. L. Liotta, J. R. Mielenz, R. Murphy, R. Templer, and T. Tschaplinski, The Path Forward for Biofuels and Biomaterials, Science 311(5760):484489 (2006). Davison, B.H., S. R. Drescher, G. A. Tuskan, M. F. Davis, and N. P. Nghiem, Variation of S/G Ratio and Lignin Content in a Populus Family Influences the Release of Fermentable Sugars by Dilute Acid Hydrolysis, Appl.Biochem. Biotechnol. 129132:427435 (2006). Davison, B. H., B. Evans, J. D. McMillan, and M. Finkelstein (Eds.), Proceedings of the 26th Symposium on Biotechnology for Fuels and Chemicals, Chattanooga, Tennessee, May 2004, Appl.Biochem. Biotechnol, 121124 (2005). Strader M. B., N. C. VerBerkmoes, D. L. Tabb, H. M. Connelly, J. W. Barton, B. D. Bruce, D. A. Pelletier, B.H. Davison, R. L. Hettich, F. W. Larimer, and G. B. Hurst, Characterization of the 70S Ribosome from Rhodopseudomonas palustris Using an Integrated Top-Down and Bottom-Up Mass Spectrometric Approach, J. Proteome Res. 3:965978 (2004). Borole, A. P., C. L. Cheng, and B. H. Davison, Substrate Desolvation as a Governing Factor in Enzymatic Transformations of PAHs in Aqueous-Acetonitrile Mixtures, Biotechnol. Prog. 20:12511254 (2004). Davison, B. H., N. P. Nghiem, and G. L. Richardson, Succinic Acid Adsorption from Fermentation Broth and Regeneration, Appl.Biochem. Biotechnol. 113116: 653669 (2004). Borole, A. P., S. Dai, C. L. Cheng, M. Rodriguez, Jr., and B. H. Davison, Performance of Chloroperoxidase Stabilization in Mesoporous SolGel Glass Using In Situ Glucose Oxidase Peroxide Generation, Appl.Biochem. Biotechnol. 113116:273285 (2004). McKeown, C. K. and B. H. Davison, A Simplified Method to Create Quantitiative Fixed Uranyl-Contaminated Metal Coupons, Health Physics 86, Supplement 2: S113-S115 (May 2004). Finkelstein, M., J. D. McMillan, B. Evans, and B. H. Davison (Eds.), Proceedings of the 25th Symposium on Biotechnology for Fuels and Chemicals, Breckenridge, Colorado, May 2003, Appl.Biochem. Biotechnol., 113116 (2004). Barton, J. W., T. Kuritz, L. E. OConnor, C. Y. Ma, M. M. Maskarinec, and B. H. Davison, Reductive Transformation of Methyl Parathion by Cyanobacterium Anabaena sp. PCC7120, Appl. Microbiol. Biotechnol. 65(3)330335 (2004). Klasson, K. T., W. B. Ridenour, B. H. Davison, and J. McFarlane, Direct Capture ofOrganic Acids from Fermentation Media Using Ionic Liquids, 91, ORNL/TM2004/192 (November 2004). Klasson, K. T. and B. H. Davison, A General Methodology for Evaluation of Carbon Dioxide Sequestration Activities, Abstracts Amer. Chem. Society 225:U184 (2003). Barton, J. W., C. D. Vodraska, S. A. Jones, and B. H. Davison, Partitioning of BTEX and Chloroorganics in HighBiomass Systems, Environmental Progress 22(2):95102 (2003). Davison, B. H., J. W. Lee, J. D. McMillan, and M. Finkelstein (Eds.), Proceedings of the 24th Symposium on Biotechnology for Fuels and Chemicals, Gatlinburg, Tennessee, May 2002, Appl.Biochem. Biotechnol. 105108 (2003). Cameron, P. A., B. H. Davison, P. D. Frymier, and J. W. Barton, Direct Transesterification of Gases by Dry Immobilized Lipase, Biotechnol. Bioeng. 78:251256 (2002). Finkelstein, M., B. H. Davison, and J. D. McMillan (Eds.), Proceedings of the 23rd Symposium on Biotechnology for Fuels and Chemicals, Breckenridge, Colorado, May 2001, Appl.Biochem. Biotechnol. 98100 (2002). Wang, P., S. Dai, S. D. Waezsada, A. Y. Tsao, and B. H. Davison, Enzyme Stabilization by Covalent Binding in Nanoporous Sol-Gel Glass for Nonaqueous Biocatalysis, Biotechnol. Bioeng. 74:249255 (2001). Davison, B. H., J. W. Barton, K. T. Klasson, and L. OConnor, Removal and Destruction of CWA Simulants Using Dry Enzyme Impregnated Fabrics and Coatings, Proceedings of ENZYME: International Symposium on Applications of Enzymes in Chemical and Biological Defense, Orlando, Florida, May 1318, 2001. Rodriguez, Jr., M., K. T. Klasson, and B. H. Davison, Enhancement of the Conversion of Toluene by Pseudomonas Putida F1 Using Organic Cosolvents, Appl.Biochem. Biotechnol. 9193:195204 (2001). Klasson, K. T. and B. H. Davison, Effect of Temperature on Biofiltration of Nitric Oxide, Appl.Biochem. Biotechnol. 9193:205211 (2001). Davison, B. H., J. D. McMillan, and M. Finkelstein (Eds.), Proceedings of the 22nd Symposium on Biotechnology for Fuels and Chemicals, Gatlinburg, Tennessee, May 2000, Appl.Biochem. Biotechnol. 9193 (2001). Krishnan, M. S., F. Taylor, B. H. Davison, and N. P. Nghiem, Economic Analysis of Fuel Ethanol Production from Corn Starch Using Fluidized-Bed Bioreactors, Bioresource Technol. 75:99105 (2000). Davison, B. H. and T. Kuritz, Peeling Off Contamination, Initiatives in Environmental Technology Investment 7:12 (2000). Davison, B. H., J. W. Barton, K. T. Klasson, and A. Francisco, Influence of High Biomass on Alkane Solubilities, Biotechnol. Bioeng. 68:279284 (2000). Krishnan, M. S., M. Blanco, C. K. Shattuck, N. P. Ngheim, and B. H. Davison, Ethanol Production from Glucose and Xylose by Immobilized Zymomonas mobilis CP4(pZB5), Appl.Biochem. Biotechnol. 8486: 525541 (2000). Finkelstein, M. and B. H. Davison (Eds.), Proceedings of the 21st Symposium on Biotechnology for Fuels and Chemicals, Ft. Collins, Colorado, May26, 1999, Appl.Biochem. Biotechnol. 8486 (2000). Barton, J. W., B. H. Davison, K. T. Klasson, and C. C. Gable, III, Estimation of Mass Transfer and Kinetics in Operating Trickle-Bed Bioreactors for Removal of VOCs, Environ. Progress 18:8792 (1999). Davison, B. H. and N. P. Nghiem, Novel Immobilized-biocatalyst Bioreactors for Production of Fuels and Chemicals, Prepr. Symp. - American Chemical Society, Div. Fuel Chem. 44(2), 215218 (1999). Krishnan, M. S., N. P. Nghiem, and B. H. Davison, Ethanol Production from Corn Starch in a Fluidized-Bed Bioreactor, Appl.Biochem. Biotechnol. 7779:359372 (1999). Davison, B.H. and M. Finkelstein (Eds.), Proceedings of the 20th Symposium on Biotechnology for Fuels and Chemicals, Gatlinburg, Tennessee, May 1998, Appl.Biochem. Biotechnol. 7779 (1999). Barton, J. W., S. Hartz, K. T. Klasson, and B. H. Davison, Microbial Removal of Alkanes from Dilute Gaseous Waste Streams: MathematicalModeling of Advanced Bioreactor Systems, J. Chem. Technol. Biotechnol. 72:9398 (1998). Finkelstein, M. and B. H. Davison (Eds.), Proceedings of the 19th Symposium on Biotechnology for Fuels and Chemicals, Colorado Springs, Colorado, May 48, 1997, Appl.Biochem. Biotechnol. 7072 (1998). Sun, M. Y., N. P. Nghiem, B. H. Davison, O. F. Webb, and P. R. Bienkowski, Production of Ethanol from Starch by Co-Immobilized Zymomonas mobilis-Glucoamylase in a Fluidized Bed Reactor, Appl. Biochem. Biotechnol. 7072:429439 (1998). Davison, B. H., J. W. Barton, and G. Petersen, Nomenclature and Methodology for Classification of Nontraditional Biocatalysis, Biotechnol. Prog. 13:512518 (1997). Barton, J. W., K. T. Klasson, L. J. Koran, Jr., and B. H. Davison Microbial Removal of Volatile Organic Contaminants from Dilute Gaseous Waste Streams, Biotechnol. Prog. 13:814-821 (1997). Barton, J. W., E. K. Reed, and B. H. Davison, Gas-Phase Enzyme Catalysis using Immobilized Lipase for Ester Production, Biotechol. Techniques 11:747750 (1997). Davison, B. H., M. Finkelstein, C. E. Wyman (Eds.), Proceedings of the 18th Symposium on Biotechnology for Fuels and Chemicals, Gatlinburg, Tennessee, May 59, 1996, Appl.Biochem. Biotechnol. 6365 (1997). Nghiem, N. P., B. H. Davison, B. E. Suttle, and G. L. Richardson, Production of Succinic Acid by Anaerobiospirillum Succiniciproducens, Appl. Biochem. Biotechnol. 6365:565576 (1997). Sun, M. Y., P. R. Bienkowski, B. H. Davison, and O. F. Webb, Performance of Co-Immobilized Yeast and Amyloglucosidase in a Fluidized Bed Reactor for Fuel Ethanol Production, Appl. Biochem. Biotechnol. 6365: 483493 (1997). Wyman, C. E. and B. H. Davison (Eds.), Proceedings of the 17th Symposium on Biotechnology for Fuels and Chemicals, Vail, Colorado, May711,1995, Appl.Biochem. Biotechnol. 5758 (1996). Webb, O. F., B. H. Davison, and T. C. Scott, Modeling Scale-up Effects on a Small Pilot-Scale Fluidized-Bed Reactor for Fuel Ethanol Production, Appl. Biochem. Biotechnol. 5758:639647 (1996). Nghiem, N. P., B. H. Davison, J. E. Thompson, B. E. Suttle, and G. L. Richardson, The Effect of Biotin onthe Production of Succinic Acid by Anaerobiospirillum Succiniciproducens, Appl. Biochem. Biotechnol. 5758:633638 (1996). Petersen, J. N. and B. H. Davison, Development of a Predictive Description of an Immobilized-Cell Three-Phase Fluidized-Bed Bioreactor, Biotechnol. Bioeng. 46:139146 (1995). Harshbarger, D., M. Bautz, B. H. Davison, T. C. Scott, and C. D. Scott, Economic Assessment of Ethanol Production Comparing Traditional and Fluidized-Bed Bioreactors, Appl. Biochem. Biotechnol. 5152:593604 (1995). Davison, B. H. and C. E. Wyman (Eds.), Proceedings of the 16th Symposium on Biotechnology for Fuels and Chemicals, Gatlinburg, Tennessee, May 913, 1994, Appl.Biochem. Biotechnol. 5152 (1995). Webb, O. F., B. H. Davison, C. D. Scott, and T. C. Scott, Design and Demonstration of an Immobilized-Cell Fluidized-Bed Reactor for the Efficient Production of Ethanol, Appl. Biochem. Biotechnol. 5152:559568 (1995). Harshbarger, D., M. Bautz, B. H. Davison, T. C. Scott, and C. D. Scott, Economic Assessment of Ethanol Production Comparing Traditional and FluidizedBed Bioreactors, 91, OakRidge, Tennessee, DOE PO 32x-sm954v, February 1994. Scott, C.D., B. H. Davison, T. C. Scott, J. Woodward, C. Dees, and D. S. Rothrock, An Advanced Bioprocessing Concept for the Conversion of Waste Paper to Ethanol, Appl. Biochem. Biotechnol. 4546: 641653 (1994). Kaufman, E., N. Stanley, P. Cooper, and B. H. Davison, Screening of Resins for Use in a Biparticle Fluidized-Bed Bioreactor for the Continuous Fermentation and Separation of Lactic Acid, Appl. Biochem. Biotech. 4546:545554 (1994). Davison, B. H. and J. E. Thompson, The Removal of Alkanes in a Liquid-Continuous Gas-Phase Bioreactor: Preliminary Considerations, Appl. Biochem. Biotechnol. 4546:917923 (1994). Davison, B. H., S. A. Knopp, F. Godia, and C. Sol, Stability Characterization and Comparison of Two Fluidized-Bed Bioreactors, Bioproc. Engr. 10:13 (1994). Davison, B. H. and C. D. Scott, Advanced Bioreactors for Enhanced Production of Chemicals, Proceedings of the Division of Petroleum Chemistry, American Chemical Society 38(2):304307 (1993). Davison, B. H. and J. E. Thompson, Sustained Degradation of n-Pentane and Isobutane in a Gas-Phase Bioreactor, Biotech. Letters 15/6:633636 (1993). Davison, B. H. and J. E. Thompson, Continuous Direct Solvent Extraction of Butanol in a Fermenting Fluidized-Bed Bioreactor with Immobilized Clostridium acetobutylicum, Appl. Biochem. Biotechnol. 3940:415426 (1993). Davison, B. H. and J. E. Thompson, Simultaneous Fermentation and Separation of Lactic Acid in a Biparticle Fluidized-Bed Reactor, Appl. Biochem. Biotech. 3435:431439 (1992). Busche, R. M., C. D. Scott, B. H. Davison, and L. R. Lynd, Ethanol: The Ultimate Feedstock - A Technoeconomic Evaluation of Ethanol Manufacture in Fluidized-Bed Bioreactors Operating with Immobilized Cells, Appl. Biochem. Biotech. 3435:395417 (1992). Davison, B. H. and C. D. Scott, A Proposed Biparticle Fluidized-Bed for Simultaneous Fermentation and Separation, Biotechnol. Bioeng. 39:365368 (1992). Petersen, J. N., B. H. Davison, and C. D. Scott, Minimizing the Errors Associated with the Determination of Effective Diffusion Coefficients when Using Spherical Cell Immobilization Matrices, Biotechnol. Bioeng., 37:386388 (1991). Petersen, J. N., B. H. Davison, C. D. Scott, and S. L. Blankinship, Size Changes Associated with Metal Adsorption onto Modified Bone Gelatin Beads, Biotechnol. Bioeng. 38:923929 (1991). Petersen, J. N. and B. H. Davison, Modeling of an Immobilized Cell, Three-Phase Fluidized-Bed Bioreactor, Appl. Biochem. Biotech. 2829:685698 (1991). Petersen, J. N., B. H. Davison, C. D. Scott, and S. L. Blankinship, Accumulation of Cu++ Onto Bone Gelatin Derived Beads, Biotechnol. Techniques 4:436440 (1990). Bajpai, R., J. E. Thompson, and B. H. Davison, Gas Holdup in Three-Phase Immobilized-Cell Bioreactors, Appl. Biochem. Biotech. 2425:485496 (1990). Davison, B. H., Phase Holdup and Dispersion in a Three-Phase Fluidized-Bed Bioreactor with Low-Density Gel Beads, Proceedings of Biochemical Engineering VI, Santa Barbara, California, October27, 1988, Ann. NY Acad. Sci. 589:670677 (1990). Davison, B. H., D. M. Nicklaus, A. Misra, S. N. Lewis, and B. D. Faison, Utilization of Microbially Solubilized Coal: Preliminary Studies on Anaerobic Conversion, Appl. Biochem. Biotech. 2425, 447456 (1990). Godia, F., H. I. Adler, B. H. Davison, and C. D. Scott, Use of Immobilized Microbial Membrane Fragments to Reduce Oxygen Content and Enhance the Acetone-Butanol Fermentation, Biotechnol. Prog. 6:210213 (1990). Davison, B. H., Dispersion and Holdup in a Three-Phase Fluidized-Bed Bioreactor, Appl. Biochem. Biotech. 20:449460 (1989). Davison, B. H. and C. D. Scott, Operability and Feasibility of Ethanol Production by Immobilized Zymomonas Mobilis in a Fluidized-Bed Bioreactor, Appl. Biochem. Biotech. 18:1934 (1988). Davison, B. H., and C. D. Scott, Ethanol Production from an Industrial Feedstock by Immobilized Zymomonas mobilis in a Fluidized-Bed Bioreactor, Biotech. Bioeng. Symp. 17:629632 (1986). Davison, B. H. and G. N. Stephanopoulos, Coexistence of Saccharomyces cerevisiae and Escherichia coli in Chemostat under Substrate Competition and Product Inhibition, Biotech. & Bioeng. 28(11):17421752 (1986). Davison, B. H. and G. N. Stephanopoulos, Effect of pH Oscillations on the Experimental Stability of a Competing Mixed Culture, Biotech. & Bioeng. 28(8):11271137 (1986). Davison, B. H., K. Y. San, and G. N. Stephanopoulos, Stable Competitive Coexistence in a Continuous Fermentor with Size Selective Properties, Biotech. Prog. 1(4):260268 (1985). Stephanopoulos, G. N, K. Y. San, and B. H. Davison, A Novel Bioreactor Cell Precipitator Combination for High-Cell Density, High Flow Fermentations, Biotech. Prog. 1(4):250259 (1985). Friedly, J. and B. H. Davison, Dynamic Behavior of a Natural Circulation Loop for a Solar Collector, AIChE Symp. No. 198, 76:6979 (1980). PATENTS Li, Z., B.H. Davison, J. Zhang, Direct Catalytic Conversion of Alcohols to Olefins of Higher Carbon Number with Reduced Ethylene Production, U.S. Patent 11,691,129_B2; awarded July 4 2023. Narula, C. K., B.H. Davison, Z. Li, Zeolitic catalytic conversion of alcohols to hydrocarbon fractions with reduced gaseous hydrocarbon content, United States Patent 10,696,606; awarded June 30, 2020 Narula, C. K., B. H. Davison, and M. Keller, Zeolitic catalytic conversion of alcohols to hydrocarbons, United States Patent 11,773,333 B2. Continuation of #9,938,467; awarded October 3, 2023. Narula, C. K., B. H. Davison, and M. Keller, Zeolitic catalytic conversion of alcohols to hydrocarbons, United States Patent 9,938,467. awarded April 10, 2018 Narula, C. K., B. H. Davison, Catalytic conversion of alcohols having at least three carbon atoms to hydrocarbon blendstock, United States Patent 9,944,861; awarded April 17, 2018 Narula, C. K., B. H. Davison, and M. Keller, Zeolitic Catalytic Conversion of Alcohols to Hydrocarbons, U.S. Patent 9,533,921-B2,;issued date January 3, 2017. Narula, C. K., B. H. Davison, and M. Keller, Catalytic Conversion of Alcohols to Hydrocarbons with Low Benzene Content, (Part 2), U.S. Patent 9,434,658-B2 issued date September 6, 2016. Narula, C. K., B. H. Davison, and M. Keller, Catalytic Conversion of Alcohols to Hydrocarbons with Low Benzene Content, U.S. Patent 9,278,892; issued date March 8, 2016. Narula, C. K., B. H. Davison, Catalytic Conversion of Alcohols Having at Least Three Carbon Atoms to Hydrocarbon Blendstock, U.S. Patent 9,181,493, issued date November 10, 2015. Passian, A., L. Tetard, T.G. Thundat, B.H. Davison, M. Keller, Scanning Probe Microscopy with Spectroscopic Molecular Recognition, U.S. Patent Application 2011/0231966-A1, date: Sept. 22, 2011. Scott, C. D., T. C. Scott, and B. H. Davison, Apparatus for the Production of Gel Beads Containing a Biocatalyst, U.S. Patent 5,725,888, issued date March 10, 1998. Scott, C. D., T. C. Scott, and B. H. Davison, Apparatus and Method for the Production of Gel Beads Containing a Biocatalyst, U.S. Patent 5,712,212, issued date January 27, 1998. Scott, T. C., C. D. Scott, B. D. Faison, B. H. Davison, and J. Woodward, Enhanced Attrition Bioreactor for Enzyme Hydrolysis of Cellulosic Materials, U.S. Pat. 5,637,502, issued date June 10, 1997. Scott, C. D., J. N. Petersen, and B. H. Davison, Continuous Fluidized-Bed Contactor with Recycle of Sorbent, U.S. Patent 5,534,153, issued date July 9, 1996. Scott, T. C., C. D. Scott, B. D. Faison, B. H. Davison, and J. Woodward, Enhanced Attrition Bioreactor for Enzyme Hydrolysis of Cellulosic Materials, U.S. Patent 5,508,183, issued date April 16, 1996. Scott, C. D., B. D. Faison, B. H. Davison, and J. Woodward, Process for Converting Cellulosic Materials into Fuel or Chemicals, U.S. Patent 5,348,871, issued date September 20, 1994. Scott, C. D. and B. H. Davison, Attrition Reactor System, U.S. Patent 5,248,484, issued date September 28, 1993. BOOK CHAPTERS ONeill, H., R. Shah, B. R. Evans, J. He, S. V. Pingali, S. P. S. Chundawat, A. D. Jones, P. Langan, B. H. Davison, and V. Urban, Chapter Six - Production of Bacterial Cellulose with Controlled DeuteriumHydrogen Substitution for Neutron Scattering Studies, in Isotope Labeling of Biomolecules Labeling Methods, Z. Kelman (editor), Methods in Enzymology 565:123146 (2015). dx.doi.org/10.1016/bs.mie.2015.08.031 Davison, B. H. and T. L. Donaldson, Periodicity in Substrate Concentration in Three-Phase Fluidized-Bed Bioreactors, p. 254258 in Biotechnology Processes: Scale-Up and Mixing, C.S.Ho and J. Y. Oldshue (Eds.), AIChE Publ., New York, New York (1987). CONFERENCE PROCEEDINGS Klasson, K. T. and B. H. Davison, A General Methodology for Evaluation of Carbon Dioxide Sequestration Activities, 19th Annual International Pittsburgh Coal Conference Proceedings, Pittsburgh Coal Conference, Pittsburgh, Pennsylvania (2002). Barton, J. W., C. D. Vodraska, S. A. Jones, and B. H. Davison, Enhanced Solubility of Priority Contaminants in HighBiomass Systems and Associated Impacts on Biofilter Operation, Proceedings of the 2002 USCTRG Conference on Biofiltration, Newport Beach, California, October 30November 1, 2002. Borole, A.P., T. Kuritz, M. Rodriguez, Jr., and B. H. Davison, Improving Expression of Lignin Peroxidase in Pichia Pastoris via Directed Evolution, SIM Annual Meeting, St. Louis, Missouri, July 29August 2, 2001. Kuritz, T., A. P. Borole, M. Rodriguez, Jr., and B. H. Davison, Extracellular Expression of Functional Lignin Peroxidase in the Yeast Pichia Pastoris, American Society for Microbiology General Meeting, Orlando, Florida, May 2024, 2001. Davison, B. H., J. W. Barton, K. T. Klasson, and A. B. Francisco, Effect on the Measured Solubility of Sparingly Soluble Organics in Aqueous Bioremediation Systems, Proceedings of the 2000 USC-TRG Conference on Biofiltration, October 19, 2000, Los Angeles, California, p. 183 (2000). Klasson, K. T., J. W. Barton, B. H. Davison, S. C. Thorp, and J. M. Aaron, Performance of Propane-Degrading Bacterium, Proceedings of Air and Waste Management Association's 92nd Annual Meeting and Exhibition (1999). Barton, J. W., X. S. Zhang, K. T. Klasson, and B. H. Davison, Predictive Mathematical Modeling of Trickling Bed Biofilters for Elucidating Mass Transfer and Kinetic Effects, Proceedings of the 91st Annual Meeting of the Air and Waste Management Association, San Diego, California, June 1998, Paper 98-WAA.13P. Barton, J. W., X. S. Zhang, B. H. Davison, and K. T. Klasson, Predictive Mathematical Modeling of Trickling Bed Biofilters, Proceedings of the USC-TRG Conference on Biofiltration, LosAngeles, California, October 2223 (1998). Klasson, K. T., B. H. Davison, J. W. Barton, and J. E. Jacobs, Removal of Chlorinated and Nonchlorinated Alkanes in a Trickling Bed Biofilter, Proceedings of the 91st Annual Meeting of the Air and Waste Management Association, San Diego, California, June 1998, Paper 98-WAA.06P. Barton, J. W., K. T. Klasson, and B. H. Davison, Extended Operation and Control of Biomass Overgrowth in Biofilters Designed for VOC Removal, Proceedings of Air and Waste Management Association's 90th Annual Meeting and Exhibition, Toronto, Ontario, Canada (1997). Davison, B. H. and E. N. Kaufman, Enhanced Fermentation Systems with Continuous Removal of Inhibitory Products, Proceedings of Corn Utilization Conference V, St. Louis, Missouri, June 810, 1994. Davison, B. H., C. D. Scott, and E. N. Kaufman, Three Immobilized-Cell Bioreactors for Enhanced Production of Chemicals, Proceedings of the First Biomass Conference of the Americas: Energy Environment Agriculture and Industry, Burlington, Vermont, August 30September 2, 1993, Vol.II, 12491258. Keay, L., J. J. Eberhardt, B. R. Allen, C. D. Scott, and B. H. Davison, Improved Production of Ethanol and N-Butanol in Immobilized Cell Bioreactors, Proceedings of the Physiology of Immobilized Cells, Wageningen, The Netherlands, December1013, 1989, p. 539543. ORNL REPORTS Graham, David E.; Anyamba, ASSAF; Davison, Brian; Martin, Stanton; Petoskey, Bill; Rush, Tomas; Weston, David; Yang, Xiaohan. Plant Disease Detection Technology Assessment, TECHNICAL REPORT 01 April 2024. ORNL OSTI ID:2397440. DOI:HYPERLINK "https://doi.org/10.2172/2397440" \t "_blank"10.2172/2397440 ORNL, Summary Report for the virtual summit on Decarbonizing the Agriculture Sector. Brian H. Davison, Gerald A Tuskan, Robert Wagner (leads), 56p.; ORNL/TM-2022/1500, 91, Oak Ridge, Tennessee.  HYPERLINK "https://info.ornl.gov/sites/publications/Files/Pub172314.pdf" https://info.ornl.gov/sites/publications/Files/Pub172314.pdf (2022) U.S. Department of Energy, 2016 Billion-Ton Report: Advancing Domestic Resources for a Thriving Bioeconomy, Volume 1: Economic Availability of Feedstocks, M. H. Langholtz, B. J. Stokes, and L. M. Eaton (Leads), 448p.; ORNL/TM-2016/160, 91, Oak Ridge, Tennessee (Contributor) (2016). Nghiem, N. P. and B. H. Davison, Continuous Ethanol Production Using Immobilized-Cell/Enzyme Biocatalysts in Fluidized-Bed Reactor (FBR), 91, ORNL/TM-2002/164 (November 2003). Klasson, K. T. and B. H. Davison, A General Methodology for Evaluation of Carbon Sequestration Activities and Carbon Credits, 91, ORNL/TM2002/235 (November 2002). Davison, B. H., N. P. Nghiem, M. Donnelly, S. P. Tsai, J. Frye, R. Landucci, and M. Griffin, Production of Chemical Derivatives from Renewables, CRADA Final Report, C/ORNL/96-0407 (2002). Busche, R. M., C. D. Scott, B. H. Davison, and L. R. Lynd, The Ultimate Ethanol: Technoeconomic Evaluation of Ethanol Manufacture, Comparing Yeast vs Zymomonas Bacterium Fermentations, ORNL/TM-11852, 91, Oak Ridge, Tennessee (August 1991). INVITED WORKSHOP PANELS (SELECTED) AND RESULTING ROADMAPS IF AVAILABLE Co-Organizer Nitrogen Economy DOE Lab Workshop, Oak Ridge, TN September 2016. USDOE Biomass to Biofuels Workshop, December 2005, Breaking the Biological Barriers to Cellulosic Ethanol, DOE/SC-0095. New Biocatalysts: Essential Tools for a Sustainable 21st Century Chemical Industry, Council for Chemical Research and USDOE OIT, Palo Alto, California, November 1618, 1999. Organizing Committee/Session/Breakout Chair White House Office of Science and Technology Policy report  HYPERLINK "https://urldefense.us/v2/url?u=https-3A__lnks.gd_l_eyJhbGciOiJIUzI1NiJ9.eyJidWxsZXRpbl9saW5rX2lkIjoxMTIsInVyaSI6ImJwMjpjbGljayIsInVybCI6Imh0dHBzOi8vd3d3LndoaXRlaG91c2UuZ292L3dwLWNvbnRlbnQvdXBsb2Fkcy8yMDIzLzAzL0JvbGQtR29hbHMtZm9yLVUuUy4tQmlvdGVjaG5vbG9neS1hbmQtQmlvbWFudWZhY3R1cmluZy1IYXJuZXNzaW5nLVJlc2VhcmNoLWFuZC1EZXZlbG9wbWVudC1Uby1GdXJ0aGVyLVNvY2lldGFsLUdvYWxzLUZJTkFMLnBkZj91dG1fbWVkaXVtPWVtYWlsJnV0bV9zb3VyY2U9Z292ZGVsaXZlcnkiLCJidWxsZXRpbl9pZCI6IjIwMjMwODI5LjgxODExMjkxIn0.tCZrXOW1ChnmwGYcTRrmptBWYKNUYyaLedTYim4sdXs_s_13805046_br_224968749899-2Dl&d=DwMFAA&c=v4IIwRuZAmwupIjowmMWUmLasxPEgYsgNI-O7C4ViYc&r=d3aG6y_HrKuRJ3sEe0AbJ4ECztXGStK2IdCC7UkykX0&m=HxXFr9ZjdF6-zrqiUd_VAsmfNIb_7vt0TlYwKJOxQQevXMir4bRKmW_8ooct0Vvf&s=NR7S7gs-Jc-cz0X8U31RZ_ezvDE0ODSV9GzH-T3q5Cw&e=" Bold Goals for U.S. Biotechnology and Biomanufacturing (March 2023) BERAC. 2022. U.S. Scientific Leadership Addressing Energy, Ecosystems, Climate, and Sustainable Prosperity: Report from the BERAC Subcommittee on International Benchmarking, DOE/SC-0208. M. McCann and P. Reed, eds. Biological and Environmental Research Advisory Committee. DOI:10.2172/1895129. Vision 2020: 2000 Separations Roadmap, AIChE Center for Waste Reduction Technologies and USDOE (2000). Alternative Feedstocks Program Technical and Economic Assessment: Thermal/chemical and Bioprocessing Components, USDOE OIT, July 1993. The Technology Roadmap for Plant/crop-based Renewable Resources 2020, National Corn Growers Association and USDOE-OIT, 2/1999, DOE/GO-10999-706. DOE Genomics:GTL Roadmap Systems Biology and the Environment, DOE/SC-0090, August 2005. Systems Biology Knowledgebase for a New Era in Biology A Genomics:GTL Report from the May 2008 Workshop, DOE/SC-0113. New Frontiers in Characterizing Biological Systems Report from the May 2009 Workshop, DOE/SC-0121. DOE Systems Biology Knowledgebase Implementation Plan From the Knowledgebase System Development Workshop, June 13, 2010, in Crystal City, Virginia, September 2010. Participant U.S. Government Accountability Office Expert Meeting on Advanced Biofuels Research and Development, NAS, Washington DC, May 2016; resulting in RENEWABLE FUEL STANDARD: Low Expected Production Volumes Make It Unlikely That Advanced Biofuels Can Meet Increasing Targets, GAO-17-108, November 2016 DOE Bioproducts to Enable Biofuels Workshop, Westminster, Colorado, July 2015, DOE/EE-1294 December 2015. DOE-OBP: Workshop on Conversion Technologies for Advanced Biofuels, Arlington, Virginia, December 68, 2011. Microbial Energy Conversion, American Academy of Microbiology, workshop March 2006. National Algal Biofuels Technology Roadmap National Algal Biofuels Workshop, December 2008, May 2010, DOE/EE-0332. REVIEWER Proposal Review panels for USDA, SBIR, NSF Biocatalysis (December 2012), and DOE (BETO, BER, EPSCOR). Biosafety Assessment and review for NREL, August 2017. Journal Reviewer for multiple journals including: ACS Sus Chem Eng; Biofuels Bioprod Bioeng; Green Chem; Industrial Biotechnology; Biotech for Biofuels Bioproducts, etc. STUDENTS 5 Years: Ph.D.: Kyle Sanders, Riddhi Shah, Punita Manga Past: MS: C. L. Cheng, Greg DeLozier, Paula A. Cameron, Miguel Rodriguez, Jr. Ph.D.: Mai Y. Sun, Andrew LePore, Post-Degrees Studies 5 Years: Alexandre Dumitrache, and Zhenglong Li, Past: John W. Barton, Ping Wang, Laurel OConnor, Manesh S. Krishnan, Kelsey Yee, Erik Casbeer ORGANIZING CONFERENCES (recent) Commercializing Industrial Biotechnology Chair 9/2015, San Diego, CA. Organizing committee 2017, 2019, and 2020. RECENT SELECTED INVITED PRESENTATIONS (2010PRESENT) Economic Impact of Yield and Composition Variation in Bioenergy Crops: Populus trichocarpa International Congress on Sustainability Science & Engineering (ICOSSE '20), virtual, August 2020. Biomass pretreatment and degradation deeper understanding by the use of neutron scattering and molecular dynamics, Chalmers University, Sweden, February 14, 2019 The use of bacterial cellulose to create model composites and provide insights into hemicellulose-cellulose interactions from thermochemical pretreatment Society for Industrial Microbiology and Biotechnology, Chicago, IL, August 2018. Modes of Research Collaboration among the Bioenergy Research Centers, Bioenergy Research Center Coordination and Readiness Assessment meeting, Washington, DC, October 2017 The legacy of the BioEnergy Science Center (BESC) and the future with the Center for Bioenergy Innovation (CBI), Joint BioEnergy Institute Annual Retreat. Monterrey CA, September 2017. Structure and function of Biomass in bioprocessing, University of Tennessee Institute of Agriculture Center for Renewable Carbon seminar, Knoxville, TN July 2017  HYPERLINK "https://sim.confex.com/sim/39th/meetingapp.cgi/Paper/33532" Microbial hydrolysis of Populus biomass is limited by cellulose and lignin colocalization at the plant cell wall surface, Symposium on Biotechnology for Fuels and Chemicals, San Francisco CA May 2017  HYPERLINK "https://sim.confex.com/sim/39th/meetingapp.cgi/Paper/34268" Novel Vertimass catalyst for ethanol conversion into renewable jet, diesel, and gasoline blend stocks and high value co-products, Symposium on Biotechnology for Fuels and Chemicals, San Francisco CA May 2017 The Nitrogen Economy: the role of new biological and environmental sciences, seminar to DoE BER staff, Germantown, MD April 2017 Overcoming Recalcitrance in the Improvement of Biofeedstocks via Genomic Research, Advance Bioeconomy Leadership Conferences, Washington DC, February 2017 the Nitrogen Economy, DOE Big Ideas Preliminary Proposal Review, Berkeley CA January 2017 Bioenergy and Bioproducts Research at ORNL, briefing to P&G staff, ORNL, January 2017 Neutron Scattering and Simulation Provide Insights into Fundamental Mechanisms of Biomass Pretreatment, DOE-BER Genomic Sciences Meeting, March 2016. Commercializing Industrial Biotechnology Closing Summary of the State of the Field, Co-Chair: Commercializing Industrial Biotechnology Workshop Society of Biological Engineering, San Diego, California, September 2829, 2015. Dynamics and Coexistence in Applied Biochemical Engineering, session in honor of 65th birthday of Gregory Stephanopoulos, AICHE Annual Meeting, Salt Lake City, November 2015. Biorefineries and Bioconversions: Current and Future Challenges, plenary talk for the International Bioenergy Conference, Manchester, United Kingdom, March 1113, 2014. Strategies for Increased Bio-Based Fuels Biotechnology and Recalcitrance, plenary talk for Section 15c, AIChE Annual Meeting, Atlanta, Georgia, November 2014. Bioconversion Challenges and Opportunities, NSERC Bioconversion Network Enzyme Hydrolysis Workshop and 5th AGM, Montreal, Canada, June 24, 2014. DOE Bioenergy Research Center Achievement and Technology Transfer, 11th World Congress on Industrial Biotechnology, Philadelphia, Pennsylvania, May 1215, 2014. Strategies for Increased Bio-Based Fuels - with a Focus on Biotechnology Solutions to Recalcitrance, BSRI 2014 Annual Retreat, The Future of Bioenergy, Athens, Georgia, May 2, 2014. Metabolic and Process Engineering in Industrial Scale-up of Biobased Products, 11th World Congress on Industrial Biotechnology, Philadelphia, Pennsylvania, May 1215, 2014. Existing Challenges and the Future of Bioenergy and Bioproducts Development in Canada, FIBRE Conference Cornwall, Ontario, Canada, June 2013. The Promise and Progress of University Bioenergy Research 2012 Georgia Energy Solutions for the Southeast Meeting, Tifton, Georgia, November 29, 2012. Bioconversion NSERC AGM and Pretreatment Workshop, Vancouver, B.C., Canada, June 46, 2012. Progress of Research in Bioenergy Centers: an update on the major DOE and other Bioenergy Research Centers, Bioenergy BIO International Convention, June 2730, 2011, Washington, D.C. Overcoming Biomass Recalcitrance, Oklahoma ESPCoR Annual State Conference, University of Oklahoma, Norman, Oklahoma, April 29, 2010. Advances in Conversion and Sustainability at BESC A DOE Bioenergy Research Center, 6th World Congress on Industrial Biotechnology and Bioprocessing, Montreal, Canada, July 1922, 2009. PAST SELECTED INVITED PRESENTATIONS (19992009) BioEnergy Science Center in Developing a Cellulosic Biofuels Industry: The Tennessee Biofuels Initiative, BIO Pacific Rim Summit, November 1116, 2007, Honolulu, Hawaii. BioEnergy Science Center: Initial Results in Overcoming Biomass Recalcitrance, BIOMASS 2009: Fueling Our Future, National Harbor, Maryland, March 1718, 2009. Structural Understanding of Key Physical Properties in the Pretreatment and Enzyme Hydrolysis of Biomass, AIChE Annual Meeting, San Francisco, California, November 2013. Strategies to Generate Biofuels from Cellulosic Biomass by Overcoming Recalcitrance at the BioEnergy Science Center, AIChE Annual Meeting, San Francisco, California, November 2013. By invitation of the Ministry of Science and Technology P.R. China, Integrated Bioproducts and Separations, International High Level Forum on Bioeconomy, Beijing, China, September 1416, 2005. Davison, B. H., Nontraditional Biocatalysis, BIO 2001, Annual Meeting of the Biotechnology Industry Organization, San Diego, California, June 2427, 2001. Davison, B. H., A. Mulchandani, A. Borole, C. Cheng, and M. Rodriguez, Jr., PerixodaseCatalyzed Epoxidation of Alkenes, 221st ACS National Meeting, American Chemical Society, San Diego, California, April 15, 2000. Nghiem, N. P., M. I. Donnelly, and B. H. Davison, Production of Succinic Acid from Lignocellulosic Materials, 221st ACS National Meeting, American Chemical Society, San Diego, California, April 15, 2001. Davison, B. H., J. W. Barton, T. K. Klasson, and L. E. O'Connor, Removal and Destruction of CWA Simulants Using Dry EnzymeImpregnated Fabrics and Coatings, BoozAllen & Hamilton, Inc., International Symposium on Applications of Enzymes in Chemical and Biological Defense, Orlando, Florida, May 13, 2001. Davison, B. H., J. W. Barton, A. B. Francisco, and K. T. Klasson, The Effect of Biomass on the Measured Solubility of Sparingly Soluble Organics in Aqueous Bioremediation Systems, 2000 USC-TRG Conference on Biofiltration, Los Angeles, California, October 1820, 2000. Nghiem, N. P., B. H. Davison, and T. M. Cofer, Comparison of Ethanol Production from Lignocellulosic Sugars by Two Chromosomally Integrated Microbial Strains in a FluidizedBed Reactor, 23rd Symposium on Biotechnology for Fuels and Chemicals, Breckenridge, Colorado, May 69, 2001. Davison, B. H., T. Kuritz, and C. K. McKeown, Green Biopolymer for Decon of Contaminated Surfaces, Presentation at Decontamination, Demolition and Restoration (DD&R) Topical Meeting on Site Restoration of Government and Commercial Facilities, Knoxville, Tennessee, September 1216, 1999. Davison, B. H., T. Kuritz, J. W. Barton, and C. K. McKeown, Green Biopolymers for Decontamination of Metals from Surfaces, oral and poster presentation at AEMSP Review Meeting, Atlanta, Georgia, April 2000. Davison, B. H., T. Kuritz, C. K. McKeown, and J. W. Barton, Green Biopolymer Coatings for Improved Decontamination of Metals from Surfaces, Platform presentation at 13th Annual Technical Information Exchange (TIE) Workshop, Albuquerque, New Mexico, November 1315, 2001. MEDIA (Selected) How Stuff Works: Timber aired Thursday, December 4, 2008 on The Discovery Channel. Topic: From the dangers of old school logging to the high-tech wonder of modern tree farms we'll see how timber has transformed our world. This featured a discussion of cellulosic fuels with Brian Davison and others at ORNL. HYPERLINK "http://videos.howstuffworks.com/discovery/31916-howstuffworks-show-episode-3-cellulose-energy-video.htm"http://videos.howstuffworks.com/discovery/31916-howstuffworks-show-episode-3-cellulose-energy-video.htm Promotion to Corporate Fellow. HYPERLINK "/our-people/brian-davison"/our-people/brian-davison HYPERLINK "/news/brian-davison-seeking-new-challenges-forging-new-connections-bioenergy"/news/brian-davison-seeking-new-challenges-forging-new-connections-bioenergy A retrospective on founding the LGBTQIA+ employee group at ORNL. HYPERLINK "/news/biosciences-chief-scientist-corporate-fellow-reflects-trailblazing-lgbtqia-presence-ornl"/news/biosciences-chief-scientist-corporate-fellow-reflects-trailblazing-lgbtqia-presence-ornl An article on bioenergy outreach programs with local museums. HYPERLINK "/news/bioenergy-classes-focus-elementary-students-parents"/news/bioenergy-classes-focus-elementary-students-parents HYPERLINK "/news/national-laboratories-point-sugars-key-factor-ideal-feedstock"/news/national-laboratories-point-sugars-key-factor-ideal-feedstock HYPERLINK "/news/ornl-part-7-million-deal-turn-corn-chemicals"/news/ornl-part-7-million-deal-turn-corn-chemicals HYPERLINK "/news/energy-efficient-reaction-drives-ornl-biofuel-conversion-technology"/news/energy-efficient-reaction-drives-ornl-biofuel-conversion-technology HYPERLINK "/news/bioenergy-education-program-reaches-hundreds-thousands-climate-strategies-workforce"/news/bioenergy-education-program-reaches-hundreds-thousands-climate-strategies-workforce HYPERLINK "/news/new-perspective-highlights-promise-hybrid-approach-cellulosic-biofuel-production"/news/new-perspective-highlights-promise-hybrid-approach-cellulosic-biofuel-production HYPERLINK "/blog/ornl-accelerates-bioenergy-innovation-sharing-scientific-discoveries-over-1000-publications"/blog/ornl-accelerates-bioenergy-innovation-sharing-scientific-discoveries-over-1000-publications HYPERLINK "/news/taking-decarbonization-ag-sector-ornl-summit-highlights-focus-areas"/news/taking-decarbonization-ag-sector-ornl-summit-highlights-focus-areas HYPERLINK "/news/love-hate-relationship-solvent-and-water-leads-better-biomass-breakup?page=1"/news/love-hate-relationship-solvent-and-water-leads-better-biomass-breakup?page=1 Ethanol Producer Magazine (August 2024): Ethanol-based blendstock read to flowBrian Davison discussed the science-to-solutions breakthrough of ORNLs ethanol conversion technology that drove the creation of a renewable gasoline blendstock recently approved for final use by the U.S. Environmental Protection Agency. Ethanol Producer Magazine outlined how Vertimass LLC licensed the technology, which is now ready for production scale-up, potentially expanding ethanols market use. HYPERLINK "https://ethanolproducer.com/articles/ethanol-based-blendstock-ready-to-flow"Ethanol-Based Blendstock Ready to Flow | Ethanol Producer Magazine  #$U`jk ! 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DAVISON Page PAGE 20 About 185 plus 2 chapters, patents, tm reports, etc. other in prep MS Erica L. Gjersing, Bryon S. Donohoe, Brian H. Davison, Gerald A. Tuskan, Wellington Muchero, Robert W. Sykes, Stephen R. Decker and Mark F. Davis, Plant Cell Wall Chemical Composition Governs Cell Wall Rigidity and Biomass Recalcitrance (in prep) Punita Manga, Steve Allman, Kyle Sander, Miguel Rodriguez Jr., Dawn M. Klingeman, Madhavi Z. Martin, Nancy L. Engle, Richard J. Giannone, Suresh Poudel, Timothy J. Tschaplinski, Robert L. Hettich, Brian H. Davison, and Steven D. Brown. Improved Caldicellulosiruptor bescii growth and substrate utilization at lower pH. 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