| | | 20,000+ Fresh Resumes Monthly | |
|
|
| | Related Resumes Project Management Information Technology Knoxville, TN Statistician, Demographer, information Technology Manager, Divis Knoxville, TN Desktop Support Information Technology Maryville, TN Talent Acquisition Information Technology Knoxville, TN Information Technology Specialist Knoxville, TN Information Technology Quality Assurance Knoxville, TN Inventory Control Customer Service Lenoir City, TN |
|
Click here or scroll down to respond to this candidateCandidate's Name ?s Curriculum Vitae 1 of 27Dr. Candidate's Name
Email: EMAIL AVAILABLE; Mobile: PHONE NUMBER AVAILABLEBiography:In his 30-years rich professional experience of industrial, academic, and government R&D, Dr. Hu hasserved for multiple scientist/engineer roles as well as program/technology development managementroles, including (1) Sr. Process Development Engineer & Project Team Lead at bio-manufacturingcompany Genomatica Inc. (San Diego CA), (2) Vice President of Technology Innovation at EvolveRenewable Materials Inc. (Oak Ridge TN) in developing battery-recycling processing technologies, (3)Vice President of Separation Technologies for EnergyX (Austin TX) in developing advancedtechnologies in direct lithium extraction and electrochemical energy storage devices/batteries, and (4)Senior Chemical Engineer Research Staff Member at the Oak Ridge National Laboratory (Oak RidgeTN), Principal Investigator for DOE Basic Energy Science nanomaterials chemistry/engineeringprogram, Team Lead for BETO Bioseparations Consortium program.On technology development side: Dr. Hu has championed R&D programs as Project Team Leaderand Principal Engineer Scientist for a variety of materials chemistry, nanotechnology, biotechnology(genetically engineered fermentation & down-steam processing), and chemical process engineeringprojects that involves flow sheets of unit operations. He has been managing, leading, or supportingseveral science/engineering programs sponsored by U.S. Department of Energy, other federal agencies,and industries. He has successfully developed, conducted, and managed multidisciplinary R&D projectsthat require integration of nanomaterials chemistry, (bio)molecular sciences, and chemicalnanomanufacture engineering relevant to nanoparticles, nanocrystals, films, membranes, self-assemblednanostructures, and other nanomaterials for energy, medical, national/homeland security, and othernanotechnology applications.Hu is a team leader for a Department of Energy (DOE) Bioenergy Technologies Office program thathas recently won ORNL a 2014 R&D100 Award based on advanced nanomembranes work. He hasreceived recognition as 2019-class Battelle Distinguished Inventor. His membrane technology workmade a spotlight EERE success story in July 2017. Since 2020, Hu has demonstrated hismaterials/chemical processing leadership in several industrial R&D and manufacturing companies, allinvolving the lab/pilot PDs to commercial demos. In 2021-2022, Dr. Hu has been appointed as the VicePresident for EnergyX in critical development of separation technologies (electrodialysis membranemodules, solvent extraction, and resin-sorbent extraction of lithium from brines) from laboratory scale topilot process engineering demonstration and commercial in-field operations. In 2022-2023, Hu wasinvited to serve as the VP of technology innovation for a new start-up ERM Inc. Since the beginning of2023, Hu was invited to join the $150M joint SARAL venture (Geno, Unilever, Kao, Loreal), work withGeno?s Process Development (and Downstream Processing) teams in developing the scalable labsample-production processes to the industrial reality of pilot/commercial bio-manufacturing.On academic side: After his BS-MS-PhD education majoring in Chemical Engineering, Hu had twoyears' post-doctoral research experience in biochemical engineering and biotechnology projects. In1995, Hu started a basic energy science nanomaterials research program when joining ORNL staff. Inaddition to his ORNL staff engineer position, Hu has held long-term and short-term JointFaculty/honorary professorships and research collaborations with several universities, includingUniversity of Tennessee at Knoxville (since 1997), Purdue Univ. (2009-2010), Univ. of Cincinnati(2005-2007), Clemson Univ. (2003-2006), Univ. of Maryland (1999-2003), Case Western ReserveUniv. (2000-2002), Univ. of New Orleans (2002-2003), and South China Univ. of Technology atGuangzhou (since 2002). Through years Hu has sponsored and advised numerous postdocs, graduate,Candidate's Name ?s Curriculum Vitae 2 of 27undergraduate, and high-school students. He also had university teaching experience for undergraduateand graduate courses in chemical engineering, nanotechnology, and colloid/interfacial sciences.Dr. Hu has established international leadership in chemical nano/process engineering for advancedmaterials and nanotechnology and for direct lithium extraction and energy storage batteries. Forexample, he has been appointed as the Editor-in-Chief for the Journal of Nanomaterials and AssociateEditor for the Journal of Nanoscience and Nanotechnology. He has initiated and served as the LeadOrganizer for the pioneering series of Ceramics Nanotechnology Symposium by American CeramicSociety. For multiple years Hu served as Liaison Director for the Nanoscience and EngineeringExecutive Committee and MESD 8d-area Programming Chair for American Institute of ChemicalEngineers. His high-profile research in chemical and biomolecular synthesis engineering, processing,and applications of nanomaterials has earned academic awards (such as 2014 R&D100 Award) as wellas highlights on journal covers. He has been invited to give keynote lectures in conferences and manyinstitutions worldwide. He was recently invited to serve as nanotechnology & chemical engineer expertconsulting on the advisory board of an emerging nanotechnology-pharmaceutical company.Other than being a traditional chemical engineer, biotechnologist, or material chemist, Dr. Hu hasevolved himself into a unique multidisciplinary (chem-nano-bio) knowledge-based nanotechnologyresearcher and problem-solving chemical engineer with expertise in separations technologies, materialssynthesis chemistry, bioprocessing, renewable energy and mateirals. Hu develops and delivers?engineered solutions? to manufacturing issues in both chemical/bio processes and nanomaterialsprocessing. This unique identity can be reflected by his strong technical expertise and/or trainings inmultiple areas: (1) chemical, biomimetic synthesis and processing of nanoparticles, nanocrystals,nanophase and nanostructured materials (such as nanocrystalline ceramics, microporous/mesoporousmaterials, nanowires/nanochannels and arrays, thin films/coatings, and inorganic membranes); (2)biochemistry, microbiology and bioengineering; (3) molecular and nanoparticle self-assemblies,nucleation, growth, and crystallization phenomena; (4) wet chemical processing (sol-gel andhydrothermal technology) for advanced materials, colloid/interfacial sciences; and (5) molecularengineering and bioengineering of inorganic and composite nanostructures. Hu has also gained hands-onexperience in characterization of chemical synthesis processes and materials processing, using state-of-the-art instrumentation techniques (such as in-situ light/X-ray/neutron scattering and sub-nm resolutionelectron microscopic imaging.), plus, 27-years project business development and managementexperience, in industrial, academic, and government environment.Candidate's Name ?s Curriculum Vitae 3 of 27CITIZENSHIP: U.S. CitizenEDUCATION AND TRAINING:Post-Doctoral Research Associate: Nov. 1993 to Nov. 1995, Biotechnology Research Group and BioprocessEngineering Center, Chemical Technology Division, Oak Ridge National Laboratory.Research areas: Biomolecule-grafted synthetic polymer materials for bioseparation and biocatalysisapplications; biosorption materials and separation technology; environmental bioremediation.Ph.D. in Chemical Engineering (with bioengineering focus): Nov. 1993, Institute of Molecular and AgriculturalGenetic Engineering (IMAGE), Department of Chemical Engineering, University of Idaho (Moscow, ID).Dissertation research keywords: Biodegradation, mathematical modeling of bioprocess, bioreactor design,fermentation for cell cultivation and enzyme production, enzyme kinetics, immobilization of biocatalysts(enzyme & microbial cells), environmental bioremediation.GPA: 4.0/4.0 (for courses in both Chemical Engineering and in Biochemistry & Microbiology Dept.)M.S. in Chemical Engineering: May 1988, Center for Chemical Engineering Research, Nanjing University ofChemical Technology (NUCT), China.Thesis research keywords: chemical reactor design, multiphase fluids processing dynamics, synthesis andproduction of supported catalysts, engineering process scale-upHonor: Outstanding Graduate Student. Invited to stay as a department faculty (at Assistant Professor level).B.S. in Chemical Engineering (Inorganic Chemistry Minor): May 1985, Department of Chemical/PolymerEngineering, NUCT.Honor: exceptionally selected into graduate school under the direction of Professor Jun Shi, a member ofChinese Academy of Sciences and a pioneer for China chemical engineering industry.PROFESSIONAL LEADERSHIP & OUTSTANDING FELLOWSHIP (selected list):? Outstanding ORNL-UT Joint Faculty Professor (since 2010) and Adjunct Professor (since 1997), Department ofChemical & Biomolecular Engineering, University of Tennessee (Knoxville)? Honorary Guest Professorship- Department of Chemical Engineering, Institute of Physical Sciences and Technology, University of Maryland(College Park), 1999-2003- Department of Chemistry, South China University of Technology (Guangzhou, China), since 2002? Founding Editor-in-Chief, Journal of Nanomaterials, since March of 2005, invited and appointed by theHindawi Publishing Corp. (http://www.hindawi.com/journals/jnm/)? Associate Editor, Journal of Nanoscience and Nanotechnology, 2001-2005, American Scientific Publishers? Liaison Director, 2003-2009, Nanoscience and Engineering Executive Committee; MESD 8d-areaProgramming Chair (2011), American Institute of Chemical Engineers? Editor, The Sol-Gel Gateway, http://www.solgel.com/editors/editors.htm, since Aug. 2000? Advisory Editorial Board member, since May 2007, Nanoscience Journal, Bentham Sci. Publishers Ltd.? Editorial Board Member, since June 2004, invited by the Journal of Current Nanoscience, Bentham SciencePublishers Ltd.? Editorial Advisory Board Member, since April of 2006, invited by the journal of Recent Patents inNanotechnology, Bentham Science Publishers Ltd.? Editor, first book volume on ?Ceramic Nanomaterials and Nanotechnology The American Ceramic Society;Initiator & Organizer for the serial Symposia on Nanomaterials and Nanotechnology during annual meetings? Candidacy for Professorship at MIT (Massachusetts Institute of Technology) in 1995? Faculty-of-the-Year Award, from NUCT, 1989, for his excellent teaching and research as a young facultyHONORS, AWARDS, AND RECOGNITIONS (selected list):? 2019-class Battelle Distinguished Inventor: a plaque award for technology innovation achievement.? 2018 Certificate of Recognition, honored by Editors of Journal of Membrane Science & Technology, for Hu?sphenomenal and worthy Keynote presentation on ?Nanostructured Polymer-Graphene Hybrid Coatings forMembrane Separations and Energy Applications at the 2nd International Conference on Membrane Scienceand Technology, September 13-14, 2018, London (UK).Candidate's Name ?s Curriculum Vitae 4 of 27? 2018 Best Paper/Presentation Award from American Chemical Society (ACS), for paper I&EC 144 (Surfacefunctionalized nanomaterials for separation processing of crude and aqueous fractions of biooils) that Hupresented at the 255th ACS National Meeting in New Orleans in March 2018.? 2017 July DOE/EERE Success Story: for recognition of Dr. Hu?s team research work on HiPAS nano-membrane development for improved separation processing of biofuels and bioproducts.? 2014 (December) Technology Commercialization Award: in recognition of a successful commercial license (toDry Surface Coatings LLC) of an invention, related to superhydrophobic coatings and membranes.? 2014 (September) Technology Licensing Recognition: Candidate's Name is a co-inventor of ORNL?s patentedNanoFermentation technology. Top Five, Inc., a Chattanooga based small business with a history of launchingsuccessful entrepreneurial ventures, has licensed ORNL?s nanofermentation technology.? 2014 R&D100 Award for Dr. Candidate's Name and his team on the cutting-edge development of super-hydro-tunablefunctional nanomembranes with high impact on applications in biofuel processing (bioethanol and drop-in-fuels) and many other molecular separations in liquid-phase and vapor-phase processing.? 2014 Special Invitation to Capitol Hill Honorable Event: five ARPAE awarded teams (ORNL/Georgia Tech,General Electric, Brown Univ., University of Texas Dallas, LBNL) were selected for the February 27 round-table discussion with US Senator (Sheldon Whitehouse) and Congressman (Henry Waxman) on cleanrenewable energy and climate change, and an honorable reception themed ?Energy Innovation on the Hill? Scientific & Technical Award (2005), Nuclear Science and Technology Division, ORNL? Technical Achievement Award (2000), honored by UT/Battelle LLC and ORNL for recognition of Dr. Hu?sinitiative and sustained research accomplishment in the synthesis and processing of nanoparticles andnanostructured materials? Year 2000 Significant Event Award, honored by UT/Battelle LLC and ORNL for recognition of Dr. Hu?ssignificant contribution, advocation, and international leadership in nanostructured materials research? Presidential Young Scientist Award (2000), nominated by CTD/ORNL for recognition of Dr. Hu?s technicalinitiative contribution in nanomaterials research toward energy and environmental applications.? First-Place Winner, technical poster competition in 102nd annual meeting (St. Louis, April 2000) of TheAmerican Ceramic Society for Dr. Hu?s research work on ?Nanocrystallization of zeolite from gels duringmolecular templated hydrothermal synthesis? Journal Cover, Journal of Materials Science, June 2000, for Dr. Hu?s work on the low temperature softchemical synthesis of nanocrystalline barium titanate? First-Prize Award, from the American Ceramic Society in 1998 for poster research paper on nanoceramicmaterials and discovery of a new nanophase transformation pathwayPROFESSIONAL WORK EXPERIENCE:Feb. 6, 2023, to June 14, 2023: Sr. Process Development Engineer & Project Tech Lead, Genomatica, Inc.,San Diego, CA92121.- Develop lab & pilot demo plant for scalable bio-manufacturing (fermentation and down-stream processing) ofsustainable industrial high-value oleochemicals (e.g., long chain fatty alcohols & free fatty acids).- Establish industrial partnership with other corporations and toller bio-production plants for scalable engineeringprocessing testings/demos of multi-unit operations for fermentation (using genetic engineered microorganisms),harvesting (biomass-water-oil separations and purification), and refining steps (evaporation, hydrogenation,enzymatic/catalytic/chemical hydrolysis, and fractional distillation, etc.).Oct. 17, 2022, to Jan. 22, 2023: Vice President of Technology Innovation, EVOLVE Renewable MaterialsInc., Oak Ridge, TN 37830.- Established an advanced research laboratory for the cutting-edge development of battery recycling-processingsystems and battery materials refinery and upgrading research.- Developed partnership to build up a first generation of battery reprocessing plant that meets the US emission-control standard.Candidate's Name ?s Curriculum Vitae 5 of 27July 12, 2021 to May 27, 2022: Vice President of Separation Technologies, Energy Exploration TechnologiesInc. (EnergyX), Austin, TX 78754.- Led the material chemistry and process engineering development of direct lithium extraction technologies,including electrodialysis (ED), advanced ion-exchange membranes, solvent extraction, and nanomaterialsorbents/resins-based separations-purifications.- Contributed the new materials synthesis and fabrication/testing of new advanced lithium metal solid-statebatteries.- Supported the lab-pilot-scale up development and commercial field-site demo testing.November 22, 1995 to May 30, 2020: Senior Chemical Engineer Research Staff - Distinguished Inventor,Oak Ridge National Laboratory (ORNL), Oak Ridge, Tennessee 37831.- Energy & Transportation Science Division (ETSD) (2018 ? 2020): Senior Research Staff Member, AppliedCatalysis and Emissions Research Group, National Transportation Research Center (NTRC)- ETSD (2015 ? 2017): Senior Research Staff Member, Nanosystems, Separations and Materials Research Group- ETSD (2010 ? 2014): Senior Research Staff Member, Separations and Materials Research Group- Nuclear Science & Technology Division (2001 ? 2009): Senior Research Staff in 2003- Chemical Technology Division (1995 ? 2001): Research Staff Member? Served as Principal Investigator (PI) for a fundamental science Nanomaterials Program, Basic EnergyScience, Office of Sciences, US Department of Energy (DOE). Project Team Leader for a variety of chemicalengineering processes related to materials synthesis and nanotechnology projects for various applications inenergy, medical therapies, and devices. Team lead for a BETO-sponsored Separations Consortium.? Developed and managed multiple R&D programs and projects sponsored by government agencies (DOE,NSF, DOD, Homeland Security DNDO) and industries.? Conducted and supervised active research for chemical synthesis, characterization, and engineering of avariety of nanostructured materials (such as quantum dot nanocrystals, ultrafine monodispersed ceramicparticles for production of new generation of advanced structural and functional ceramic materials, thinfilms/coatings, fibers, and nanocrystalline inorganic membranes, microporous (zeolite) and mesoporousmaterials), using state-of-the-art techniques/facilities including Dynamic Light-Scattering, Small-AngleScattering (X-ray and neutron), SEM, high-resolution TEM, AFM, High-Temperature XRD, Spectroscopy(UV/VIS, Photoluminescence, FT-IR/Raman), TGA/DTA, BET Surface and Pore Size Analysis, ZetaPotential, ellipsometry, etc.? Established internal and external research collaborations with academic peers and industrial partners? Advised post-doc's research, graduate students? thesis/dissertation, and undergraduate internship.1997 to Present: Honorary appointments as Outstanding UT Bredesen Center Joint Faculty (2015-2020),ORNL-UT Joint Faculty Professor (2010-2020), and Adjunct Professor (1997-now) with Chemical &Biomolecular Engineering Department at University of Tennessee Knoxville.? Instructed a few courses at University of Tennessee (as Adjunct Professor): such as ChE/MSE 505 "AdvancedEngineering Analysis" and CHE691 ?Colloid and Interfacial Sciences? Advised and co-advised graduate students? Supported the university research and educational program developmentOctober 2011 to Present: invited to serve as ?nanotechnology expert? and chemical engineering Consultanton the advisory board of an emerging nanotechnology-pharmaceutical company? Evaluation of technical properties of company?s pipeline nano-drug products (regenerative nanomedicines forsmart or targeted therapeutic treatment of inflammation, cancer, etc.)? Chemical process engineering development for scale-up and potential commercial scale manufacture ofnanomedicineCandidate's Name ?s Curriculum Vitae 6 of 27November 1993 to November 1995: Post-Doctoral Research Fellow, Biotechnology Research Group andBioprocess Engineering Center, Chemical Technology Division, Oak Ridge National Laboratory.? Acting Project Leader for two R&D projects. Developed biomolecule-grafted hybrid polymer materials,biomass and biosorbent materials, and biosorption separation technology for environmental bioremediationapplications.? Conducted pilot-plant scale fermentation for microbial cell cultivation, engineering process development andset-up, and ion-exchange/chelation resin or biosorbent chromatography column operation and mathematicalmodeling.? Developed techniques of biocatalyst immobilization in organic polymeric and inorganic sol-gel beads.? Initiated new research on the development of bioligand-grafted polymeric materials for separation andbiocatalysis applications.? Filed two patent applications and published several papers on biosorption in peer-reviewed journals.? Interacted with project industrial partners such as Scientific and Commercial Systems Corporation.? Drafted mid-term and final project reports to U.S. Department of Energy, successfully renewed researchfunding for FY 1995. Prepared two research proposals.January 1990 to November 1993: Research Assistant, Chemical Engineering Department. Worked oninterdisciplinary research projects in Institute for Molecular and Agricultural Genetic Engineering(IMAGE) at University of Idaho (Moscow).? Carried out pilot-plant fermentation for enzyme production and purification.? Designed a novel bioreactor, studied mass transfer and reaction kinetics.? Grained hands-on microbiology and biochemistry laboratory techniques, used various computer-controlledlab equipment and instruments, such as fermentation facilities, UV/visible Spec, HPLC, GC, AA, ICP,HPLC-GC-MS, Liquid Scintillation Counter, et al.? Helped Prof. Roger Korus teaching courses such as Biochemical Engineering, Polymer Science andEngineering.Research projects involved below topics:- Design and characterization of a dynamic bed bioreactor with immobilized D-galactosidase.- Lignin peroxidases production from white-rot fungus Phanerochaete chrysosporium.- Deactivation kinetics and catalytic properties of lignin peroxidases from P. chrysosporium.- Enzymatic degradation of azo dyes by manganese-dependent peroxidase from P. chrysosporium.- Biodegradation and adsorption of pentachlorophenol by immobilized Flavobacterium.- Mass transfer studies and modeling of solute through an adsorbing porous media.- Anaerobic biodegradation of TNT in a slurry bioreactor for bioremediation of soil at Missouri.May 1988 to January 1990: Assistant Professor in Chemical Engineering Department and Research Staff inCenter for Biochemical Engineering Research, Nanjing University of Chemical Technology, China.? Instructed undergraduate courses: chemical process unit operations, transport phenomena, chemical reactionengineering, biochemical engineering.? Conducted (bio)chemical engineering research projects in following areas:- Oxygen mass transfer studies in a columnar fermenter with bubble breaking agitators.- Improvement of fermentation and alcohol precipitation processes to enhance xanthan gum productivity (Incooperation with a biotechnology company in Jiangsu province).- Large-scale cultivation of plant (ginseng) cells in an air-lift loop bioreactor system. (In collaboration withMicrobiology Laboratory at Nanking Pharmaceutical University).- Design, set-up and testing of a continuous, mechanically stirred dryer and cyclone powder recovery systemfor drying terramycin pastes (A contract development for Nanking Pharmaceutical Co.).? Directed undergraduate research thesis: Process for organic synthesis of para-hydroxyl benzaldehyde.? Supervised engineering students' industrial training in Nanking Pharmaceutical Company and Wuxi Enzymesand Antibiotics Manufacturing Corporation.Candidate's Name ?s Curriculum VitaeSeptember 1985 to May 1988: Chemical Engineering M.S. thesis work, plus one-year Process Engineerinternship in Zhou-Cun Catalyst Plant.? Studies and measurements of the rheological characteristics of highly concentrated slurry suspensions (non-homogeneous, non-Newtonian fluids).? Power consumption and mixing characteristic studies of stirred reactors with impellers for highly viscousnon-Newtonian fluids (A cooperative project with a branch company of the Chinese Chemical & PetroleumIndustrial Ministry in Shandong Province, which produces molecular-sieve catalysts).September 1984 to September 1985: Undergraduate design, internship, and thesis research.Thesis research: A statistical approach to the factors affecting the acidic extraction of elements (N, P and K)from the Yili minerals in Sichuan Province.Undergraduate design: Computer calculations and mechanical drawings of absorption and distillation columns,and process feed-back control.Industrial internship: Three months in Shanghai Chemical Industrial Co. (sulfuric acid production plant) andone month in Nanking Synthetic Ammonia Plant.Candidate's Name ?s Curriculum Vitae 8 of 27PUBLICATIONS (>198 peer-reviewed papers & patents):1. Mi Lu and Candidate's Name *, ?Novel Porous Ceramic Tube-Supported Polymer Layer Membranes for AceticAcid/Water Separation by Pervaporation Dewatering Separation and Purification Technology 236, 116312(2020).2. Mi Lu, Candidate's Name amin Wang, and Jian Liu, ?Selective adsorption removal ofcarbonyl molecular foulants from real fast pyrolysis bio-oils Biomass & Bioenergy 136, PHONE NUMBER AVAILABLE.3. Yizhi Liang, Can Li, Shuxuan Li, Baowei Su*, Candidate's Name *, Sueli Gao, and Conjie Gao, ?Graphenequantum dots (GQDs)-polyethyleneimine as interlayer for the fabrication of high-performance organic solventnanofiltration (OSN) membranes Chemical Engineering Journal 380, PHONE NUMBER AVAILABLE.https://doi.org/10.1016/j.cej.2019.122462. Resolution Pub ID: 1290454. Candidate's Name *, Brian L. Bischoff, Marissa E. Morales-Rodriguez, Kevin A. Gray, and Brian H. Davison,?Superhydrophobic or hydrophillic porous metallic/ceramic tubular membranes for continuous separations ofbiodiesel-water W/O and O/W emulsions Ind. Eng. Chem. Res. 58, 1114-1122 (2019).5. Shenjie Xu, Feng Li, Baowei Su*, Candidate's Name *, Xueli Gao, and Congjie Gao, ?Novel graphene quantumdots (GQDs)-incorporated thin film composite (TFC) membranes for forward osmosis (FO) desalinationDesalination 451, PHONE NUMBER AVAILABLE. Resolution Pub ID: 1107646. Gyoung G. Jang, James W. Klett, Joanna McFarlane, Anton Levlev, Kai Xiao, Jong K. Keum, Mina Yoon,Piljae Im, Candidate's Name , and James E. Parks II, ?Efficient Solar-Thermal Distillation Desalination Deviceby Light Absorptive Carbon Composite Porous Foam Global Challenges, 2900003 (2019). DOI:10.1002/gchPHONE NUMBER AVAILABLE7. Mi Lu, Andrew Lepore, Jae-Soon Choi, Felipe Poli Garzon, Zili Wu, Kim Margrini, Mark Jarvis, andCandidate's Name * ?Carbide catalysts for catalytic hot gas filtration to tailor vapor chemistry of fast pyrolysisprocess Catalysts 8, 643 (2018).8. Can Li, Baowei Su*, Candidate's Name *, Xueli Gao, and Conjie Gao, ?High solvent-resistance integralpolyimide composite membrane for organic solvent nanofiltration (OSN) Journal of Membrane Science,564, 10-21 (2018). Resolution Pub ID: 1107659. Candidate's Name *, Chaiwat Engtrakul, Brian L. Bischoff, Mussie Alemseghed, and Mi Lu, ?Surface-Engineered Inorganic Nanoporous Membranes for Vapor and Pervaporative Separations of Water-EthanolMixtures Membranes 8, 95 (2018). doi:10.3390/membranes8040095. Resolution ID: 11023810. Candidate's Name , ?Nanostructured Polymer-Graphene Hybrid Coatings for Membrane Separations and EnergyApplications Proceeding book for 2nd International Conference on Membrane Science and Technology,Sept13-14, 2018, London, UK. Resolution Pub ID: 117946. DOI: PHONE NUMBER AVAILABLE-C1-00411. Bradie Crandall, Junyan Zhang, Jingyu Fang, Candidate's Name , Dongxia Liu, Zhenglong Li, ?Novel Materialsfor Adsorptive Desulfurization of Liquid Fuels AIChE 2018 Southern Regional Conference Proceedings,Resolution Pub ID: 10982812. Candidate's Name *, David W. Depaoli, Tanya Kuritz, and Ogbemi O. Omatete, ?Electric-Field-Oriented Growthof Long Hair-Like Silica Microfibers and Derived Functional Monolithic Solids Recent Patent onNanotechnology (NanoTec) 11, PHONE NUMBER AVAILABLE.13. Gyoung G. Jang, Kyoung-Sik. Moon, Ching-Ping Wong, Jong K. Keum, Candidate's Name *, ?Size-controlled,Aromatic amine ligand grafted Graphene Sheet Deposit Films for Enhanced Performance of SupercapacitorsCarbon 119, PHONE NUMBER AVAILABLE.14. Gyoung Gug Jang, Bo Song, Liyi Li, Jong Kahk Keum, Yongdong Jiang, Andrew Hunt, Kyoung-Sik Moon,Ching-Ping Wong, and Candidate's Name *, ?Microscopic Vertical Alignment of Nano-Interspaced GrapheneArchitectures in Deposit Films as Electrodes for Enhanced Supercapacitor Performance Nano Energy 32,88-95 (2017).15. Candidate's Name * and Matthew R. Sturgeon, ?Architectured Nanomembranes invited contribution to a bookchapter for book Shape Selective/Anisotropic Nanomaterials, July (2017).16. Chaiwat Engtrakul*, Candidate's Name *, Brian L. Bischoff, and Gyoung G. Jang, ?Surface-EnhancedSeparation of Water from Hydrocarbons: Potential Dewatering Membranes for the Catalytic Fast Pyrolysis ofPine Biomass Energy & Fuels 30, 8483-8348 (2016).Candidate's Name ?s Curriculum Vitae 9 of 2717. Candidate's Name *, Chaiwat Engtrakul*, Brian L. Bischoff, Gyoung G. Jang, Timothy J. Theiss, Mark F. Davis,?Superhydrophobic and Superhydrophilic Surface-Enhanced Separation Performance of Porous InorganicMembranes for Biomass-to-Biofuel Conversion Applications Sep. Sci. Technol., December, 1-16 (2016).18. Jianqing Chen*, Donghui Yang, Dan Song, Jiajia Wang, Jinhua Jiang, Aibin Ma, Candidate's Name *, ShiquanLyu, and Chaoying Ni*, ?Recent Progress in Stability of Hybrid Perovskites for Solar Cell Applicationsinvited contribution to Journal of Power Sources, April (2017).19. Candidate's Name , ?Semiconductor Nanocrystal Quantum Dot Synthesis Approaches towardsLarge-scale Industrial Production for Energy Applications Nanoscale Research Letters, 10, 469 (2015).20. Candidate's Name * and Peng Lai, ?Substrate Effect on Nanoporous Structure of Silica Wires by Channel-Confined Self-Assembly of Block-Copolymer and Sol-Gel Precursors invited contribution to special issueof Multifunctional Oxide Materials, AIMS Materials Science 2(4), PHONE NUMBER AVAILABLE.21. Wenyan Liu, Yu Zhang, Dan Wang, Tieqiang Zhang, Yi Feng, Wenzhu Gao, Jingzhi Yin, Yiding Wang,Alexis P. Riley, Candidate's Name , William W. Yu, and Cheng Ruan, ?ZnCuInS/ZnSe/ZnS Quantum Dot-basedDown-conversion Light-Emitting Diodes and the Thermal Effect Journal of Nanomaterials, vol. 2015,Article ID 298614, 10 pages, doi:10.1155/2015/298614, November 8 (2015).22. Lizhong Wang, Lu Peng, Candidate's Name , Shiquan Lyu, Xiangwei Meng, Bo Yu, Maobin Wei, Hougang Fan,and Lili Yang, ?Performances of YBaCo1.4Cu0.6O5+delta?Ce0.8Sm0.2O1.9 composite cathodes for intermediate-temperature solid oxide fuel cells Ceramics International, 41(10), Part A, PHONE NUMBER AVAILABLE (2015).23. Xiangwei Meng, Shiquan Lyu, Shouxiu Liu, Ciaoyan Liu, Yingrui Sui, Ciuyan Li, Mingjun Pang, BiaoWang, Yuan Ji, Candidate's Name *, ?Electrochemical characterization of B-site cation-excessPr2Ni0.75Cu0.25Ga0.05O4 cathode for IT-SOFCs Ceramics International, 41(9), Part B, PHONE NUMBER AVAILABLE(2015).24. Xingbin Yan, Tifeng Jiao, Lavinia Balan, Xingqing Chen, Candidate's Name , and Wenwen Liu, ?ChemicalFunctionalization, Self-Assembly, and Applications of Nanomaterials and Nanocomposites 2014 Journal ofNanomaterials, Article ID 953926, March (2015).25. Jianqing Chen, Donghui Yang, Dan Song, Jinghua Jiang, Aibin Ma, Candidate's Name , Chaoying Ni, ?Recentprogress in enhancing solar-to-hydrogen efficiency Journal of Power Sources 280, PHONE NUMBER AVAILABLE.26. Rachel Dickson and Candidate's Name *, ?Chemical synthesis and optical characterization of regular and magic-sized CdS quantum dot nanocrystals using 1-dodecanethiol J. Mater. Res. 30, 891 (2015).27. Chen Jianqing, Yang Donghui, JIang Jinghua, MA Aibin, Song Dan, Ni Chaoying, Hu Michael Z. ?A reviewon charge carriers transport materials used in organometal halide perovskite-based solar cells MaterialsReivew A: review. 2015 29(3): 1-7. Chaoying Ni, Michael Z.Hu. A 2015 29(3):1-7.)28. Zane W. Bell, Donald E. Hornback, Candidate's Name , ?Final Report: Real-Time Wavelength Discriminationfor Improved Neutron Discrimination in CLYC ORNL/LTR-2015/343, May, 2015.29. Yongmei Zheng, Jingxia Wang, Yongping Hou, Hao Bai, and Candidate's Name , ?Bioinspired FunctionalMaterials Journal of Nanomaterials, Article ID 986815, Nov. 25 (2014).30. Zane W. Bell, Donald E. Hornback, and Candidate's Name , ?Real-Time Wavelength Discrimination forImproved Neutron Discrimination in CYLC 2014 IEEE Nuclear Science Symposium paper, accepted, Nov.8-15, 2014, Seattle.31. Candidate's Name , Donglu Shi, and Douglas A. Blom, ?Nano-Structured Mesoporous Silica Wires with Intra-Wire Lamellae via Evaporation-Induced Self-Assembly in Space-Confined Channels? Journal ofNanomaterials, Article ID 932160, March (2014).32. Weiyong Yu and Candidate's Name , ?ZnCuInS/ZnSe/ZnS for Green Color Down-conversion Light-EmittingDiodes report ORNL/LTR-2014/302, Pub ID 51033, August 8, 2014.33. Huaping Zhu, Lei Shao, Kui Yu, Shijun Liao, and Candidate's Name *, ?Synthesis and Optical Properties ofThiol Functionalized CdSe/ZnS (Core/Shell) Quantum Dots by Ligand Exchange? Journal of Nanomaterials,Article ID324972, March21 (2014).Candidate's Name ?s Curriculum Vitae 10 of 2734. H. Xia, Candidate's Name , Y Meng, J. Xie, and X. Zhao, ?Nanostructured materials for clean energy andenvironmental challenges Journal of Nanomaterials, Article ID PHONE NUMBER AVAILABLE35. Sayan Bhattacharyya, Yitzhak Mastai, Rabi Narayan Panda, Sun-Hwa Yeon, and Candidate's Name , ?AdvancedNanoporous Materials: Synthesis, Properties, and Applications Journal of Nanomaterials, Article ID275796(2014).36. Tifeng Jiao, Xingbin Yan, Lavinia Balan, Andrey L. Stepanov, Xinqing Chen, and Candidate's Name ,?Chemical Functionalization, Self-Assembly, and Applications of Nanomaterials and NanocompositesJournal of Nanomaterials, Article ID291013 (2014).37. II-Kwon Oh, Anchal Srivastava, In-Kyu Park, and Candidate's Name , ?Nano for Biomimetics andBiomaterials Journal of Nanomaterials, Article ID PHONE NUMBER AVAILABLE.38. Ting-Jen Hsueh, Sheng-Po Chang, Shyh-Jer Huang, Chieh-Chih Huang, and Candidate's Name , ?Concepts of NovelNanomaterial Device and Application Journal of Nanomaterials, Article ID PHONE NUMBER AVAILABLE.39. Xibin Yan, Tifeng Jiao, Lavinia Balan, Andrey L. Stepanov, Xinqing Chen, and Candidate's Name , ?ChemicalFunctionalization, Self-Assembly, and Applications of Nanomaterials and Nanocomposites Journal ofNanomaterials, published special issue (http://www.hindawi.com/journals/jnm/si/185651/) (2013).40. Jian Wei, Xuchun Song, Chunli Yang, and Candidate's Name , ?1D Nanostructures: Controlled Fabrication andEnergy Applications Journal of Nanomaterials, published special issue(http://www.hindawi.com/journals/jnm/si/197254/) (2013).41. Yang Chai, Tian-Ling Ren, Lan Wei, Hua-Liang Zhang, and Candidate's Name , ?Emerging Nanomaterial forFuture VLSI nanoelectronics Applications Journal of Nanomaterials, published special issue(http://www.hindawi.com/journals/jnm/si/769362/) (2013).42. Amir Kajbafvala, Mojtaba Samiee, Candidate's Name , and Jae-IL Jung, ?Coating Active Materials for Lithium-Ion Battery and Supercapacitor Applications Journal of Nanomaterials, published special issue(http://www.hindawi.com/journals/jnm/si/352620/) (2013).43. JiWon Moon, Candidate's Name et al., ?Scalable economic extracellular synthesis of CdS nanostructuredparticles by a non-pathogenic thermophile Journal of Industrial Microbiology & Biotechnology, 40, 1263-1271 (2013).44. Jia Jianguang, Teruhisa Ohno, Yuan Lin, Yao Liu, and Candidate's Name , ?Inorganic SemiconductorNanocrystals with Controlled Properties: Synthesis, Processing, and Applications Journal of Nanomaterials,published special issue (http://www.hindawi.com/journals/jnm/si/364037/) (2012).45. Andrew J. Haring, Amanda Morris, and Candidate's Name , ?Controlling Morphological Parameters of AnodizedTitania Nanotubes for Optimized Solar Energy Applications Materials 5, 1890-1909 (2012).46. B. Zou, W. W. Yu, J. Seo, T. Zhu, Candidate's Name , Editorial Article) Nanocrystals-Related Synthesis,Assembly, and Energy Applications 2012 J. Nanomater., vol. 2012, Article ID 820439(http://www.hindawi.com/journals/jnm/2012/820439/), 2 pages, doi:10.1155/2012/820439 (2012).47. Truong, V.-V., Singh, J., Tanemura, S., and Candidate's Name , Editorial Article) Nanomaterials for LightManagement in Electro-Optical Devices Journal of Nanomaterials, vol. 2012, Article ID 981703(http://www.hindawi.com/journals/jnm/si/673420/) (2012).48. Gluckstein, J., Hu, M., Kidder, M., Narula, C. K., Sturgeon, M., and McFarlane, J. ?Investigation of CatalyticPathways and Separations for Lignin Breakdown into Monomers and Fuels Separation Science andTechnology, June (2012).49. Matthew R. Sturgeon, Peng Lai, and Candidate's Name *, ?A comparative study of anodized titania nanotubearchitectures in aqueous and nonaqueous solutions J. Mater. Res., 26(20), 2612-2623 (2011).50. Yingnan Wang, Quanqin Dai, Xinyi Yang, Bo Zou, Dongmei Li, Bingbing Liu, Candidate's Name , andGuangtian Zou, ?A Facile Approach to PbS Nanoflowers and Their Shape-Tunable Hollow Nanostructures:Morphology Evolution Cryst. Eng. Comm., 13 (1), PHONE NUMBER AVAILABLE.51. Cai-Feng Wang, Candidate's Name , and Su Chen, ?Chemical Synthesis and Optical Properties of CdS?Poly(Lactic Acid) Nanocomposites and Their Transparent Fluorescent Films Colloid Polymer Sci., 289,PHONE NUMBER AVAILABLECandidate's Name ?s Curriculum Vitae 11 of 2752. Quanqin Dai, Bo Zou, William W. Yu, Jaetae Seo, and Candidate's Name , "(Editorial Article) Nanocrystals-Related Synthesis, Assembly, and Energy Applications," J. Nanomater., vol. 2011, Article ID 237050, 2pages, 2011. doi:10.1155/2011/237050 (http://www.hindawi.com/journals/jnm/2011/237050/).53. Matthew R. Sturgeon and Candidate's Name , ?ARCHITECTURED NANOMEMBRANES FOR IN-SITUENERGY CONVERSION ORNL/TM-2011/241, August 2011.54. Candidate's Name , Quanqin Dai, and Chad E. Duty, ?Pulsed Thermal Processing of Self-Assembled QuantumDot Structures ORNL/TM-2011/31, February 2011.55. Jeffrey Gluckstein, Candidate's Name , Michelle Kidder, Joanna McFarlane, Chaitanya Narula, MatthewSturgeon, ?Final Report: Investigation of Catalytic Pathways for Lignin Breakdown into Monomers andFuels ORNL/TM-2010/281, October 2010.56. Q. Dai, Y. Zhang, Y.N. Wang, Y. D. Wang, B. Zou, W. W. Yu, and Candidate's Name *, ?Ligand Effects onSynthesis and Post-Synthetic Stability of PbSe Nanocrystals J. Phys. Chem., 114 (39), PHONE NUMBER AVAILABLE (2010).57. Q. Dai, Y. Xhang, Y.N. Wang, M.Z. Hu, B. Zou, Y.D. Wang, and W.W. Yu, ?Size-Dependent TemperatureEffects on PbSe Nanocrystals Langmuir, 26(13), PHONE NUMBER AVAILABLE (2010).58. Y.N. Wang, Q.Q. Dai, L.C. Wang, B. Zou, T.A. Cui, B.B. Liu, W.W. Yu, M.Z. Hu, and G.T. Zou, ?MutualTransformation between Random Nanoparticles and Their Superlattices: The Configuration of CappingLigand Chains J. Phys. Chem. C, 114 (26), PHONE NUMBER AVAILABLE (2010).59. M. Z. Hu and K. Yu, ?Thermodynamically driven approach toward engineering nanomanufacture of single-sized quantum dot molecular nanocrystal ensembles World J. of Eng., July (2010).60. Q.Q. Dai, C.E. Duty, and M.Z. Hu*, Featured Review Article) Semiconductor-Nanocrystals-Based WhiteLight-Emitting Diodes Small 6, No. 15, 1577-1588 (2010).61. J.G. Hemrick, M.Z. Hu, K.-M. Peters, and B. Hetzel, ?Nano-Scale Interpenetrating Phase Composites(IPC?S) for Industrial and Vehicle Applications, ORNL/TM-2010/80, DOE publication 23862, April (2010).62. Kui Yu, Candidate's Name a Wu,Donald M. Leek, and Ye Tao, ?Thermodynamically Driven Formation of Single-Sized Nanocrystals: Tuningof Magic-Sized Quantum Dots versus Regular Quantum Dots Journal of Physical Chemistry C, 114, 3329-3339 (2010).63. Jianying Ouyang, Jasmijn Kuijper, Simon Brot, David Kingston, Xiaohua Wu, Donald M. Leek, Michael Z.Hu, and Kui Yu, ?Photoluminescent Colloidal CdS Nanocrystals with High Quality via Noninjection One-PotSynthesis in 1-Octadecene? Journal of Physical Chemistry C, 113 (18), 7579-7593 (2009).64. Candidate's Name , Lubna Khatri, Michael T. Harris, ?Preparation of Monodispersed Ultrafine ZeoliteNanocrystal Particles by Microwave Hydrothermal Synthesis Ceramic Transactions 208, 89 (2009).65. Huaping Zhu, Shijun Liaoa, Liyan Yea, Xinfa Hua, Bamin Khomamib and Candidate's Name *, ?A ModifiedSolid-State Reduction Method to Prepare Carbon Nanotube-Supported Platinum Nanoparticle Catalysts forLow Temperature Fuel Cell Application Current Nanoscience, 5(2), PHONE NUMBER AVAILABLE.66. Candidate's Name a Gu, M. Parans Paranthaman, Jorge Gabittoand Latoya Harrison, ?Synthesis and Characterization of Anodized Titanium-Oxide Nanotube ArraysJournal of Materials Science 44(11), 2820-2827 (2009).67. Candidate's Name and Clay E. Easterly, ?A novel thermal electrochemical synthesis method for production ofstable colloids of ?naked? metal (Ag) nanocrystals Materials Science and Engineering C 29, 726-736(2009).68. Peng Lai, Candidate's Name *, Donglu Shi, and Douglas Blom, ?Silica Nanowires with New MesoporeStructures by Space-Confined Self-Assembly within Nano-Scale Channels Chem. Comm., issue 11, 1338 -1340, (2008).69. Anil K. Kurella, Candidate's Name , and Narendra B. Dahotre, ?Effect of Microstructural Evolution onWettability of Laser Coated Calcium Phosphate on Titanium Alloy Materials Science and Engineering C28(8),1560-1564 (2008).70. R. D. Hunt, T. B. Lindemer, Michel Z. Hu, G. D. De Cul, and J. L. Collins, ?Preparation of Spherical, DenseUranium Fuel Kernels with Carbon Radiochim. Acta, 95, PHONE NUMBER AVAILABLE.Candidate's Name ?s Curriculum Vitae 12 of 2771. Candidate's Name , A. C. DeBaille, Y. Wei, and G. E. Jellison, ?Chemical Solution Deposition of Hafnia Filmson Self-Assembled Molecular Monolayers Current Nanoscience, Vol. 2, 13-32 (2006).72. Pan, Y., Zhu, J. H., Hu, M. Z., and Payzant, E. A. ?Processing of YSZ Thin Films on Dense and PorousSubstrates Surface & Coatings Technology, 200, 1242-1247 (2005).73. B. I. Lee, X. Wang, S. J. Kwon, H. Maie, R. Kota, J. H. Hwang, J. G. Park, Candidate's Name , ?Synthesis of hightetragonality nanoparticle BaTiO3 Microelectronic Engineering, 83, PHONE NUMBER AVAILABLE.74. Wang, X., Lee, B.I., Hu, M., Payzant, A., and Blom, D.A.,"Nanocrystalline BaTiO3 Powder via a SolProcess Ambient Conditions," J. Euro. Ceram. Soc. 26, 2319-2326 (2006).75. Burtrand I. Lee, Xinyu Wang, Radhika Bhave, and Candidate's Name , ?Synthesis of brookite TiO2nanoparticles by ambient condition sol synthesis Materials Letters, 60, 1179-1183 (2006).76. Candidate's Name , Valmor de Almeida, Igor Kosacki, Douglas A. Blom, and E. Andrew Payzant, ?Design andSynthesis of Oriented Guest-Host Nanostructures For Enhanced Membrane Performances DOE InformationBridge, web publication http://www.osti.gov/bridge/purl.cover.jsp?purl=/885953-DgVEUr/, August 2006.77. Candidate's Name , A. C. DeBaille, Y. Wei, and G. E. Jellison, ?Chemical Solution Deposition of Hafnia Filmson Self-Assembled Molecular Monolayers - PART I ? FILM CHARACTERIZATION CeramicTransaction series, Vol. 172, 37-55 (2005).78. Candidate's Name , A. C. DeBaille, Y. Wei, and G. E. Jellison, ?Chemical Solution Deposition of Hafnia Filmson Self-Assembled Molecular Monolayers - PART II ? PRECIPITATION BEHAVIOR IN BULKSOLUTIONS Ceramic Transaction series, Vol. 172, 57-70 (2005).79. Candidate's Name , ?Synthesis of Nanostructured Oxide Films via Chemical Solution Deposition, MolecularDesign, and Self-Assembly Ceramic Transactions series, vol. 159, 77-91, American Ceramic Society, Dec.,2004.80. X. Feng and Candidate's Name , ?Ceramic Nanoparticle Synthesis Encyclopedia of Nanoscience andNanotechnology (Ed. H.S. Nalwa), Vol. 1, PHONE NUMBER AVAILABLE.81. C. H. Mattus, M. Z. Hu, D. W. DePaoli, ?Deposition of uranium on sodium aluminosilicate surfacesJournal of The American Ceramic Society 87 (1): PHONE NUMBER AVAILABLE.82. S.A. Morton III, D.J. Keffer, R.M. Counce, D. W. DePaoli, Candidate's Name , ?Thermodynamic Method forPrediction of Surfactant Modified Oil Droplet Contact Angle Journal of Colloid and Interface Science, 270,PHONE NUMBER AVAILABLE.83. Pozhar LA, de Almeida VF, Hu MZ, ?Virtual processing of advanced nanomaterials American CeramicSociety Bulletin 83 (5): MAY 2004.84. X. Wang, B. I. Lee, Candidate's Name , E. A. Payzant, and D. A. Blom, ?Ambient Condition Synthesis andCharacterization of Nanocrystalline BaTiO3 Ceramic Transactions, 148, 21-37 (2004).85. David W. DePaoli, Costas Tsouris, and Candidate's Name , ?EHD Micromixing Reactor for Particle SynthesisPowder Technology, 135-136, 302-309 Oct. (2003).86. D. L. Green, J. S. Lin, Y.-F. Lam, Candidate's Name , D. W. Schaefer, and M. T. Harris, ?Size, VolumeFraction and Nucleation of Stober Silica Nanoparticles Journal of Colloid and Interface Sciences, 266 (2):346-358 Oct. (2003).87. Candidate's Name nt, and L. F. Allard Jr., ?UltrafineMicrosphere Particles of Zirconium Titanate by Homogeneous Dielectric-Tuning Coprecipitation Journal ofMaterials Science, 38, 3831-3844 (2003).88. B. I. Lee, M. Wang, D. Yoon, and Candidate's Name , ?Aqueous processing of barium titanate powders Journal ofCeramic Processing Research, 4, 17-24 (2003).89. X. Wang, B. I. Lee, Candidate's Name , E. A. Payzant, and D. A. Blom, ?Mechanism of Nanocrystalline BaTiO3Particle Formation by Hydrothermal Refluxing Synthesis Journal of Materials Science: Materials inElectronics, 14, PHONE NUMBER AVAILABLE.90. X. Wang, B. I. Lee, Candidate's Name , E. A. Payzant, and D. A. Blom, ?Synthesis of Nanocrystalline BaTiO3 bySolvent Refluxing Method Journal of Materials Science Letters, 22, PHONE NUMBER AVAILABLE.Candidate's Name ?s Curriculum Vitae 13 of 2791. S.A. Morton, III, D.J. Keffer, R.M. Counce, D. W. DePaoli, Candidate's Name , ?Thermodynamic Model for thePrediction of Contact Angles of Oil Droplets on Solid Surfaces in SDS Solutions Separation Science andTechnology, 38, 2815-2835 (2003).92. A. W. Rowe, A. N. Davis, R. M. Counce, S. A. Morton III, D. W. DePaoli, and Candidate's Name , ?Oil DropletDetachment from Metal Surfaces as Affected by an Applied Potential Separation Science and Technology,38, 2793 - 2813 (2003).93. N. Davis, S. A. Morton III, R. M. Counce, D. W. DePaoli, and Candidate's Name , ?Ionic Strength Effects onHexadecane Contact Angles on a Gold-Coated Glass Surface in Ionic Surfactant Solutions Colloids andSurfaces A: Physicochem. Eng. Aspects, 221, 69-80 (2003).94. Candidate's Name , D. W. DePaoli, and A. J. Mattus, ?Results of Deposition Scoping tests ORNL/TM2003/005,February, 2003.95. Clavier JW, Mirzadeh S, Depaoli D, Hu MZC, ?Mesoporous sol-gels for use in clinical-scale Ac-225-Bi-213generators ABSTRACTS OF PAPERS OF THE AMERICAN CHEMICAL SOCIETY 225: U258-U25864-NUCL Part 2, MAR 2003.96. Candidate's Name , D. W. DePaoli, and C. H. Mattus, ?Aluminosilicate and Uranium Surface Precipitation testsORNL/TM2002/201, September 19, 2002.97. Y. Tang, Y. Liu, U. Sampathkumaran, Candidate's Name , R. Wang, M. R. De Guire, ?Particle Growth andParticle Surface Interactions during Low Temperature Deposition of Ceramic Films Solid State Ionics, 151,69-78 (2002)98. A. W. Rowe, R. M. Counce, and S. A. Morton III, Candidate's Name , and D. W. DePaoli, ?Oil Detachment fromSolid Surfaces in Aqueous Surfactant Solutions as a Function of pH Ind. Eng. Chem. Res. 41 (7), 1787-1795(2002).99. L. A. Pozhar, E. P. Kontar, and Candidate's Name , ?Transport Properties of Nanosystems: Viscosity ofNanofluids Confined in Slit Nanopores Journal of Nanoscience and Nanotechnology, 2, PHONE NUMBER AVAILABLE.100. D. L. Green, M. T. Harris, S. Jayasundara, J. S. Lin, Candidate's Name , Y.-F. Lam, ?Early Stage SilicaFormation in Methanol and Ethanol Ceramic Transactions, 137, 33-58 (2003).101. L. Khatri, Candidate's Name , and M. T. Harris, ?Nucleation and Growth Mechanism of Silicalite-1Nanocrystal During Molecularly Templated Hydrothermal Synthesis Ceramic Transactions, 137, 3-21(2003).102. L. A. Pozhar, V. F. Almeida, Candidate's Name , ?Virtual Processing of Advanced Nanomaterials CeramicTransactions, PHONE NUMBER AVAILABLE.103. J. Dong, E. A. Payzant, Candidate's Name , D. W. DePaoli, and Y.-S. Lin, ?Synthesis of MFI-Type ZeoliteMembranes on Porous ?-Alumina Supports by Wet Gel Crystallization in the Vapor Phase Journal ofMaterials Science, 38 (5): PHONE NUMBER AVAILABLE.104. W. R. Wilmarth, S. W. Rosencrance, D. T. Hobbs, C. M. Janzten, J. Laurient, W. L. Tamosaitis, A. J.Mattus, Candidate's Name , D. W. DePaoli, C. F. Weber, P. McGinnis, and S. Mattigod, ?AluminosilicateFormation in High Level Waste Evaporators: A Mechanism for Uranium Accumulation Proceedings ofWM?02 Conference, February 24-28, 2002, Tucson, AZ.105. J. Dong, Candidate's Name , E. A. Payzant, T. R. Armstrong, P. F. Becher, ?Grain Growth in NanocrystallineYttrium-Stabilized-Zirconia Thin Films Synthesized by Spin Coating of Polymeric Precursors J. Nanosci.Nanotechnol., 2, PHONE NUMBER AVAILABLE.106. Candidate's Name , D. W. DePaoli, and D. T. Bostick, ?Dynamic Particle Growth of Aluminosilicate ZeolitesORNL/TM-2001/100, January 18, 2001.107. Candidate's Name , D. W. DePaoli, D. T. Bostick, C. Tsouris, and A. B. Walker, ?Flow effect onScaling/Deposition of Aluminosilicate Zeolites ORNL/TM-2001/235, October 31, 2001.108. T. Meek, Candidate's Name , M. J. Haire, ?Semiconductor Properties of Uranium Oxides Proceedings ofWaste Management 2001 Symposium, Tucson, Arizona, February 25 - March 1, 2001.109. S. Li, N. Xu, J. Shi, Candidate's Name , and E. A. Payzant, ?In-situ high-temperature X-ray diffractionstudies of mixed-conducting perovskite-type oxides Journal of Materials Science Letters, 20, 1631-1633(2001).Candidate's Name ?s Curriculum Vitae 14 of 27110. S.A. Morton, III, D.J. Keffer, R.M. Counce, D. W. DePaoli, Candidate's Name , ?Thermodynamic Model forthe Prediction of Contact Angles of Oil Droplets on Solid Surfaces in SDS Solutions Abstracts of Papersof the American Chemical Society 222: 160-NUCL Part 2 AUG 2001.111. Candidate's Name , J. T. Zielke, C. H. Byers, J.-S. Lin, and M. T. Harris, ?Probing the Early-Stage/RapidProcesses in Hydrolysis and Condensation of Metal Alkoxides Journal of Materials Science, 35, 1957-1971 (2000).112. Candidate's Name nt, ?Wet Chemical Synthesis ofMonodispersed Barium Titanate Particles ? Hydrothermal Conversion of TiO2 Microspheres toNanocrystalline BaTiO3 Journal of Powder Technology, 110, 2-14 (2000).113. J. Dong, Y. S. Lin, Candidate's Name , R. A. Peascoe, and E. A. Payzant, ?Template Removal AssociatedMicrostructural Development of Ceramic Supported MFI Zeolite Membranes Microporous andMesoporous Materials, 34, PHONE NUMBER AVAILABLE.114. Candidate's Name , G. A. Miller, E. A. Payzant, and C. J. Rawn, ?Wet Chemical Synthesis ofMonodispersed Barium Titanate Particles ? Homogeneous Coprecipitation of Inorganic Salts Journal ofMaterials Science, 35, 2927 (2000).115. Tsouris, C., D.W. DePaoli, J.T. Shor, Candidate's Name , and T.-Y. Ying, "Electrocoagulation for MagneticSeeding of Colloidal Particles," Colloids and Surfaces, 177, PHONE NUMBER AVAILABLE.116. Candidate's Name , Jason T. Zielke, J.-S. Lin, and Charles H. Byers, "Small-Angle X-Ray ScatteringStudies of Early-Stage Colloids Formation by Thermohydrolytic Polymerization of Aqueous Zirconyl SaltSolutions," Journal of Materials Research, 14, PHONE NUMBER AVAILABLE.117. A. Singhal, M. Harris, L. M. Toth, Candidate's Name , G. Beaucage, K. D. Keefer, J.-S. Lin, and J. R.Peterson, "Study of Growth Kinetics and Structure of Zirconium Hydrous Polymers in an AlkoxideSystem," by Journal of Non-Crystalline Solids, 246, PHONE NUMBER AVAILABLE.118. Candidate's Name bbard, ?Nanocrystallization and PhaseTransformation in Monodispersed Ultrafine Zirconia Particles from Various Homogeneous PrecipitationMethods Journal of American Ceramic Society, 82(9), 2313-20 (1999).119. S. Li, W. Jin, P. Huang, N. Xu, J. Shi, Candidate's Name , and Y. H. Ma, ?Perovskite-Related ZrO2-DopedSrCo0.4Fe0.6O3-? Membrane for Oxygen Permeation AIChE Journal, 45, PHONE NUMBER AVAILABLE.120. S. Li, W. Jin, P. Huang, N. Xu, J. Shi, Y. Lin, Candidate's Name , E. A. Payzant, ?Comparison of OxygenPermeability and Stability of Perovskite Type La0.2A0.8Co0.2Fe0.8O3-? (A = Sr, Ba, Ca) MembranesIndustrial Engineering and Chemistry Research, 38, 2963-2972 (1999).121. N. Xu, Z. Shi, Y Fan, J. Dong, J. Shi, and Candidate's Name , ?Effect of TiO2 Particle Size onPhotocatalytic Degradation of Methylene Blue in Aqueous Suspensions Industrial Engineering andChemistry Research, 38, PHONE NUMBER AVAILABLE.122. Candidate's Name and M. Reeves, ?Ligand-Grafted Biomaterials for Adsorptive Separations of Uranium inSolution AIChE Journal, 45(11), 2333-2345 (1999).123. Candidate's Name , Michael T. Harris, and Charles H. Byers, "Nucleation and Growth for Synthesis ofNanometric Zirconia Particles by Forced Hydrolysis," Journal of Colloid and Interface Science, 198, 87-99(1998).124. Candidate's Name bbard, ?Chemical Synthesis ofMonodispersed Ultrafine Composite Particles in Fifth Internaltional Conferences on CompositesEngineering (edited by David Hui), Las Vegas. page 389-390, July5-11, 1998.125. Candidate's Name , ?Low-Tech Routes Yields High-Tech Ceramic Nanopowders in High-Tech MaterialsAlert 15(2), 1, February, 1998.126. J.-H. Koh, B. S. Broyles, H. Guan-Sajonz, Candidate's Name , and G. Guiochon, "Consolidation andColumn Performance of Silica and Alumina Packing Materials for Liquid Chromatography in a DynamicAxial Compression Column," Journal of Chromatography A, 813, PHONE NUMBER AVAILABLE127. Candidate's Name and Mark E. Reeves. "Biosorption of Uranium by Pseudomonas aeruginosa Strain CSUImmobilized in a Novel Matrix," Biotechnology Progress, 13, 60-70 (1997).Candidate's Name ?s Curriculum Vitae 15 of 27128. Candidate's Name , John M. Norman, Brendlyn D. Faison, and Mark E. Reeves. "Biosorption of Uraniumby Pseudomonas aeruginosa Strain CSU: Characterization and Comparison Studies," Biotechnology andBioengineering, 51, PHONE NUMBER AVAILABLE.129. Z.-C. Hu, Roger A. Korus, William E. Levinson, and Ronald L. Crawford. "Adsorption and Biodegradationof Pentachlorophenol by Polyurethane-Immobilized Flavobacterium," Environmental Science andTechnology, 28, PHONE NUMBER AVAILABLE.130. Y.-X., Gu, Z.-C. Hu, and Roger Korus. "Effects of Adsorption on Mass Transfer in PolymericImmobilization Materials," The Chemical Engineering Journal & The Biochemical Engineering Journal,54, B1-B8 (1994).131. Z.-C. Hu, Roger A. Korus, and Keith E. Stomo. "Characterization of Immobilized Enzymes inPolyurethane Materials in a Dynamic Bed Reactor," Applied Microbiology and Biotechnology, 39, 289-295(1993).132. Z.-C. Hu, Roger A. Korus, C. R. Venkataramu, and Ronald L. Crawford. "Deactivation Kinetics of LigninPeroxidase from Phanerochaete Chrysosporium," Enzyme and Microbial Technology, 15, PHONE NUMBER AVAILABLE.133. Hu, Z.-C., Xiao, R.-Z., and J. Shi. "Study of the rheological characteristics and mixing behavior of non-Newtonian slurry fluids with agitation technique," Journal of Nanking Institute of Chemical Technology,12(1), 56-65 (1990).Books and Special Topical Issues1. ?Ceramics Nanomaterials and Nanotechnology IV edited by Richard Laine, Candidate's Name , and SongWeiLu, Ceramic Transactions series, vol. 172, American Ceramic Society, September, 2005.2. ?Ceramics Nanomaterials and Nanotechnology III edited by SongWei Lu, Candidate's Name , and Yuri Gogotsi,Ceramic Transactions series, vol. 159, American Ceramic Society, December, 2004.3. ?Ceramics Nanomaterials and Nanotechnology II edited by Mark R. De Guire, Candidate's Name , Yuri Gogotsi,and SongWei Lu, Ceramic Transactions series, vol. 148, American Ceramic Society, copyright 2004.4. ?Ceramic Nanomaterials and Nanotechnology I edited by Candidate's Name and Mark DeGuire, CeramicTransactions series, vol. 137, American Ceramic Society, 2003.5. ?Ceramic Nanoparticle Synthesis X. Feng and Candidate's Name , Encyclopedia of Nanoscience andNanotechnology (Editor-in-Chief: H. S. Nalwa), American Scientific Publishers, accepted, November, 2003.6. Edited/co-edited >85 special topical issues or stand-alone books (seehttp://www.hindawi.com/journals/jnm/psi/) through Journal of Nanomaterials, Editor-in-Chief, since 2005. Forexample, a few recent titles of stand-alone book copy:1) ?Chemical Functionalization, Self-Assembly, and Applications of nanomaterials and Nanocomposites2014.2) ?Nanostructured Materials for Clean Energy and Environmental Challenges 2014.3) ?Advanced Nanoporous Materials: Synthesis, Properties, and Applications 20144) ?Nano for Biomimetics and Biomaterials Journal of Nanomaterials 2014.5) ?Concepts of Novel Nanomaterial Device and Application 2014.6) ?1D Nanostructures: Controlled Fabrication and Energy Applications 2013.7) ?Emerging Nanomaterial for Future VLSI nanoelectronics Applications 2013.8) ?Nanomaterials for Light Management in Electro-Optical Devices 2012.9) ?Nanocrystals-Related Synthesis, Assembly, and Energy Applications 2012.10) ?Patent and Invention Applications:1. Hu, Michael Z.; Gu, George Y.P. et al. Six provisional patent applications filed from July 2021 to May 2022.(1) MONOVALENT ANION SELECTIVE MEMBRANE FOR APPLICATION IN LITHIUMEXTRACTION FROM NATURAL SOURCES(2) Monovalent Anion Selective Membrane Enabled by High Salinity BrineCandidate's Name ?s Curriculum Vitae 16 of 27(3) MEMBRANES WITH SURFACE CROSSLINKED METAL ORGANIC FRAMEWORKS FOR IONSEPARATION AND METHODS OF MANUFACTURE(4) Methods For Lithium Metal Production Direct From Lithium Brine Solutions(5) LI METAL FILM DEPOSIT ON COPPER FOIL WEB VIA A SIMULTANEOUS EXTRACTION-ELECTRODEPOSITION PROCESSING(6) Multiplication Method for Significantly Enhanced Membrane Production Throughput2. Hu, Michael Z.; Simpson, John T.; Aytug, Tolga; Paranthaman, Mariappan Parans, Sturgeon, Matthew R.?Super-surface selective nanomembranes providing simultaneous high permeation flux and high selectivityPatent No.: US 10,179,313 B2 (Jan. 15, 2019).3. Provisional patent filed, Application # 62/958,754 (Date 1/9/2020). Invention Disclosure 201704033.?Sorbent Selective Removal/Reduction of Carbonyls and Carboxylic Acids for Bio-Oil Stabilization andDown-Stream Catalyst Preservation Inventors: Candidate's Name , Mi Lu.4. Hu, M.Z.; Engtrakul, C.; Bischoff, B.L.; Davis, M.F. ?Integrated Membrane-Pyrolysis-Catalytic UpgradingSystems ORNL/NREL Invention Disclosure ID 201503495, DOE SPHONE NUMBER AVAILABLE; Patent No.:US10,118,124B2 (Nov. 6, 2018).5. Candidate's Name , Kaushik Biswas et al. Invention Disclosure ID#: 201904401, "Low-cost, mini-encapsulatedsalt-hydrates for thermal energy storage"6. Candidate's Name , Mi Lu. Invention Disclosure ID#: 201904400, "Renewable low-cost bio-crude basedcomposite PCMs for high-performance thermal energy storage?7. Candidate's Name , Mi Lu. Invention Disclosure ID#: 201904398, "Crack-free, Strongly Crosslinked Polymer-Ceramic Membranes for High-Flux Molecular Separations of Acetic Acid/Water"8. Gyoung G Jang, James W. Klett, Candidate's Name , et al. Provisional Patent filing on Invention Disclosure201704044, DOE S-138,709 - Solar-thermal Driven Desalination Superhydrophobic Coated Micro-porousCarbon Foam Tubular Membrane?9. Hu, Michael Z. et al. ?Super-surface selective nanomembranes providing simultaneous high permeation fluxand high selectivity US Patent 9,308,501 B2 (August, 2018).10. Provisional patent filing for Invention Disclosure 201704036. ?Fast-Permeating Graphene-Polymer HybridMembranes for Dewatering, Desalination and Water/Ion Separations Inventor: Candidate's Name .11. Provisional patent filing discussion for Invention Disclosure 201503616. ?External Field Aligned GrapheneSheets Particulate Deposit Films/Electrodes? Inventor: Candidate's Name
12. Invention Disclosure 20170424. ?Battery Electrodes with Low Tortuosity Enabled by Electric FieldInventors: Jianlin Li, Candidate's Name , David L. Wood III, William B. Hawley.13. Invention Disclosure 201804070. ?Separations of Bio-Derived 2,3-Butanediol (BDO) for Enhanced ThermalCatalytic Upgrading Inventors: Candidate's Name and Zhenglong Li.14. Invention Disclosure 201704050. ?Multifunctional Sorbents-Membrane Platform for Hot Syngas CleanupInventors: Candidate's Name , Zhenglong Li, Mi Lu.15. Invention Disclosure 201704043. ?Catalysts for Catalytic Hot Gas Filtration to Tailor Vapor Chemistry ofFast Pyrolysis Bio-Oils Inventors: Candidate's Name , Mi Lu.16. Invention Disclosure 201704051. ?Re-Vitalized CO2 Economy through a New Paradigm of Nano-EngineeredChemical Processing and Additive Manufacturing Inventors: Candidate's Name , Zhenglong Li, Mi Lu.17. Invention Disclosure 201704031. ?Membranes and Sheathings with Directional Vapor |
