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`Current 12/09/20
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`Curriculum Vitae
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`William Edward Mayo
`1909 Waterfront Pl - #540
`Pittsburgh, PA 15222
`billm02127@gmail.com
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`Summary
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`PhD in Material Science with over 45 years of experience in academia and industry
`Expert in X-ray diffraction (XRD) analysis of organic and inorganic materials
`Fellow of the International Centre for Diffraction Data
`Former editor of XRD database (PDF) and journals (Powder Diffraction)
`Founder of XRD service laboratory and consulting service
`Inventor of XRD system for counterfeit pharmaceutical detector
`Author/coauthor of 135+ published articles
`Expert in material analysis and patent infringement litigation
`
`Education
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`1982
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`1982
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`1974
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`1971
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`Post Doctoral Fellow, Bell Labs, Murray Hill NJ - Major areas of study: XRD
`characterization of III-V thin films.
`Ph.D. (Mechanics and Materials Science), Rutgers University, Piscataway NJ -
`Major areas of study: structural and failure analysis of materials deformed by
`fatigue and stress corrosion cracking; development of computerized x-ray testing
`methods; modeling of hardening mechanisms and phase transformations.
`M.E. (Metallurgy and Materials Science) Carnegie-Mellon University,
`Pittsburgh PA., - Major areas of study: metal processing methods and
`semiconductor characterization.
`B.S. (Physics) Carnegie-Mellon University, Pittsburgh PA.
`
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`Post Graduate Training
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`How to Excel and Succeed as an Expert Witness in Patent Cases: Special
`Techniques – Seak Workshop, Falmouth MA
`How to Excel at Your Expert Witness Deposition – Seak Workshop,
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`2017
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`2017
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`EISAI EXHIBIT 1024
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`2016
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`2013-2016
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`2013
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`2003
`2000
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`Falmouth MA
`Advanced Testifying Skills for Experts – Seak Workshop, Chicago IL
`Current Good Manufacturing Practices (cGMP) – Classroom training in
`FDA required aspects of pharmaceutical testing.
`How to Write a Bulletproof Expert Witness Report – Seak Workshop,
`Washington DC
`Advanced Rietveld Analysis – Georgia Tech University, Atlanta, GA
`Rietveld Analysis – Universität Bayreuth, Bayreuth, Bavaria, Germany
`
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`Academic Employment
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`2008- pres Emeritus Professor, Rutgers University, Piscataway NJ, Material Science and
`Engineering Dept.
`1998-2008 Professor, Rutgers University, Piscataway NJ, Ceramic and Materials
`Engineering Department (now Materials Science & Engineering Dept).
`1995-1998 Associate Professor, Rutgers University, Piscataway NJ, Ceramic and Materials
`Engineering Department.
`1988-1995 Associate Professor, Rutgers University, Piscataway NJ, Dept. of Mechanics and
`Materials Science.
`1982-1988 Assistant Professor, Rutgers University, Piscataway NJ, Dept. of Mechanics and
`Materials Science.
`1978-1982 Research Assistant, Rutgers University, Piscataway NJ, Dept. of Mechanics and
`Materials Science.
`
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`Non-Academic Employment
`
`1997-2015 H&M Analytical Services, Allentown NJ, (Co-Founder and Chief Scientist).
`Veracity Network, Vero Beach FL, (Co-founder/Science Advisor) - formerly
`2011-pres
`Xstream Systems.
`2004-2011 Xstream Systems, Vero Beach FL, (Co-founder/Science Advisor).
`
`1999-2001 Nanopac, New Brunswick NJ, (Co-founder)
`
`1977-1978
`
`TRW (Reda Pump Division), Bartlesville OK, Materials Engineering Section,
`(Metallurgist).
`1974-1977 Olin Metals Research Laboratory, New Haven CT, Physical Metallurgy
`Section, (Metallurgist).
`1970-1972 Harry Diamond Research Laboratory, Washington, DC, Microminiature
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`Branch, (Physicist).
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`Honors
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`Fellow, International Centre for Diffraction Data, Newtown Square PA.
`2006
`Post-Doctoral Fellow, Bell Laboratories, Murray Hill, NJ
`1982
`
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`Editorial Positions
`
`Editor, Metals Index of the Powder Diffraction File, ICDD
`1994-2007
`1998-2007 Assistant Editor for New Diffraction Data, Powder Diffraction (Journal)
`1998-2001 Assistant Editor, Nanostructured Materials (Journal)
`Editorial Staff, PDF-4 Relational Database, ICDD
`1996-2000
`Editorial Staff, The Blue Book, ICDD
`1997-1998
`1987-1988 Chair, Editorial Board, TMS/AIME Conference on High Temperature
`Superconductors, Rutgers University
`1985-1986 Member, Editorial Board, TMS/AIME Conference on Semiconductor Defects,
`Bell Labs
`1979-1984 Assistant Editor, Metals Index of the Powder Diffraction File, ICDD
`1982-1983 Member, Editorial Board, US/France Cooperative Meeting, Snowmass, CO
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`Technical Society
`Memberships (past 10 years)
`American Ceramic Society
`American Crystallographic Association
`International Centre for Diffraction Data
`Materials Research Society
`Sigma Xi Honorary Society
`
`Teaching (Courses Taught)
`
`150:254
`Laboratory II (X-ray diffraction and X-ray fluorescence)
`150:206
`Thermodynamics
`150:309
`Analytical Techniques in Ceramics
`150:408
`Analytical Techniques for Ceramics Research
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`150:520
`150-521
`150-524
`150:532
`150:563
`440-127
`440-407
`655-351
`655-551
`655-552
`635-553
`655-561
`655-595
`655-601
`655-xxx
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`X-ray Diffraction and Spectroscopy in Ceramics
`X-ray Diffraction and Spectroscopy Laboratory
`Advanced Characterization
`Kinetics: Diffusion, Phase Transformations and Sintering
`Advanced X-ray Diffraction
`Introduction to Computing for Engineers
`Mechanical Properties of Materials
`Metallurgical Engineering
`Physical Metallurgy I
`Physical Metallurgy II
`Mechanical Behavior of Metals
`Computer Aided Experimentation
`Advanced Physical Metallurgy I
`Kinetics of Metal Systems
`X-ray Diffraction (unaccredited course)
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`Teaching (Courses Developed)
`
`150:254
`Laboratory II (X-ray diffraction and X-ray fluorescence)
`150:520
`X-ray Diffraction and Spectroscopy in Ceramics
`150:521
`X-ray Diffraction and X-ray Spectroscopy Laboratory
`440-125
`Introduction to FORTRAN
`655-561
`Computer Aided Experimentation
`655-553
`Mechanical Behavior of Metals
`655-601
`Kinetics in Metal Systems
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`Teaching (Courses Supervised)
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`440-125
`1990 - 1996 (Average of 125 students/year)
`440-127
`1982 - 1996 (Average of 900 students/year)
`655-221
`1990 - 1991 (Approximately 750 students)
`655-222
`1990 - 1991 (Approximately 400 students)
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`Personnel Supervised
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`Ph.D.
`Students
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`Post-Docs
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`Christian Pinzone, Ph.D. 2006
`Chandrusekhar Reddy Gorla, Ph.D. 1999
`Yu Chi Wang, Ph.D. 1998
`Matthew Schurman, Ph.D. 1998
`Shih-Chieh Liao, Ph.D. 1996
`Chiao-Yi Hwang, Ph.D. 1995
`Ganjiang Feng, Ph.D. 1992
`Jhong Wah Lee, Ph.D., 1992
`Shyam Rao, Ph.D., 1992
`Chi-Fung Lo, Ph.D., 1989
`
`Hidehiko Kamide (1986-88)
`Nagabusham Patibandla (1989-90)
`Ping Lu (1993-95)
`B S Sywe (1994-95) (w/ Y. C. Lu)
`Shih Chieh Liao (1997-99)
`James Colaizzi (1999-00)
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`Visiting
`Professors
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`Masanori Kurita (1988-89), Nagaoka Technological University, Japan
`Zwi Kalman (1989-2001), Hebrew University, Jerusalem, Israel
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`University Service
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`Hub Computer Committee (1994-1998)
`Common Purposes (Executive Committee) (1994-95)
`Search Committee for VP for Computing (1991-92)
`Radiation Safety Committee (1984-90)
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`University
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`College
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`Freshman Computing Committee (1983-96)
`Freshman Computer Course Coordinator (1983-96)
`College Planning Committee (1989-1994)
`Health and Safety Committee (1986-1991)
`Grievance Committee (1991-94)
`Department Committee on Strategic Plan (1993)
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`Seminar Series Organizer (1983-84, 1992)
`Safety Officer (1983-91)
`Space Committee (1991-93)
`Computer Course Coordinator (1982-1996)
`X-ray Laboratory Supervision (1983- 2008)
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`Scholarly Service Activities
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`Eastern Analytical Society (2014)
`Sintering 99 Conference (1999)
`Victims of PanAm 103 (1996)
`American Civil Liberties Union (1996)
`Carnegie Institute (1995)
`Congressional Office of Technology Assessment (1995)
`Bureau of Alcohol, Tobacco and Firearms (1995)
`Denver X-Ray Conference (1995)
`International Centre for Diffraction Data (1993)
`National Academy of Sciences (1991)
`Congressional Office of Technology Assessment (1991)
`Naval Weapons Laboratory (1991)
`Johns Hopkins University (1990)
`Stevens Institute of Technology (1988)
`Columbia University (1987)
`Session Chairman at MRS/AIME Conference (1986)
`Jet Propulsion Laboratory (1983)
`ASM Meeting, US Steel Fairless Works (1982)
`
`Invited
`Speaker
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`Shanghai Technical College, Shanghai, PRC (1986)
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`JCPDS/ICDD Education Subcommittee (1991-pres)
`JCPDS/ICDD Metals Subcommittee (1991-pres)
`TMS (NJ Chap) Program Committee (1986-89)
`TMS (NJ Chap) Student Affairs Committee (1983-91)
`TMS (NJ Chap) Coordinator, Student Paper Contest (1990)
`Metals Science Club (NY) Membership Committee (1986)
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`Visiting
`Lecturer
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`Technical
`Societies
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`Metals Science Club (NY) Program Committee (1984)
`ICDD Grant in Aid (Chair) (2005-07)
`ICDD Editor for Metals and Alloys (1994-2008)
`
`Applied Physics Letters
`Corrosion
`Journal of the American Ceramic Society
`Journal of Applied Physics
`Journal of Applied Crystallography
`Journal of Electronic Materials
`Journal of Materials Research
`Metallurgical Transactions
`Material Science and Engineering
`Nanostructured Materials
`Powder Diffraction
`Scripta Materiala
`Transactions of ASME
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`National Science Foundation
`Department of Energy
`State of Connecticut/DEPSCOR (DOD)
`NSF Small Business Innovative Research
`
`Journal
`Referee
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`Reviewer
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`1997 - 2002
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`Research Centers
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`Associate Director of Advanced Coating Technology Development Program
`funded by the ONR for the period 6/97 to 6/02. This program is a consortium of
`5 Universities, 1 Government Lab, and 9 Industrial partners. Total funding for
`this program and its associated DUSTP program exceeds $7,300,000.
`Co-Chair of Steering Committee 1983-1986 for Rutgers Surface Modification
`Research Center. During tenure as Co-Chair, almost $1,000,000 in external
`research support and matching funds were generated.
`Director of Centralized X-Ray Facilities for the NJ Sponsored Advanced
`Technology Center for Surface Engineered Materials (ATC-SEM). Responsible fo
`fund raising ($330,000), construction and supervision of new user facility used
`jointly by Rutgers, Princeton, Stevens, NJIT and Sarnoff Labs.
`
`1983 - 1986
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`1982 - 1984
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`Research Grants
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`DHS/CBP/
`Opioid Detection Challenge ($100,000) (3/19-10/19)
`USPS
`
`Development of Hi-performance Ceramic Armor ($150,000) (5/13- 5/16)
`Development of Explosive Simulants ($499,500) (1/05-9/06)
`CXRS/CT Hybrid Explosives Detection Technology ($4,930,000) 10/02 – 9/1/03)
`Lightweight Ceramic Materials and Survivability Technologies ($700,000) (9/01-
`8/07)
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`DARPA
`DHS
`L-3
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`ONR
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`Processing of Nanoscale Ceramic Metamaterials ($200,000) (7/01-6/05)
`
`UDelaware
`(AFOSR)
`ARL
`NIST
`BMDO
`NJ-TTCP
`NSF
`NIST
`NSF
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`ONR
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`ONR
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`Advanced Ceramic Armor ($520,000) (2/01-1/06)
`Nanoceramic Cutting Tools - Phase II ($300,000) (9/00-8/02)
`Ceramic Nano-composites ($65,000) (5/00-10/00)
`Commercialization of Nanosctructured Ceramics ($240,000) (4/00-3/01)
`Nanostructured Ceramic Composites ($100,000) (1/00-5/00)
`Nanoceramic Cutting Tools ($70,000) (7/99-1/00)
`High Resolution X-Ray Diffractometer (w/Riman) ($108,797) (9/99-8/00)
`Thermal Sprayed Nanostructures: A New Generation of High Performance
`Ceramic Coatings (co-PI w/Kear) ($5.570,000) (6/97-6/02)
`Thermal Spray Nanostructured Ceramic Coatings for Dual Use Applications
`(co-PI w/ Kear) ($1,793,800) (9/97-9/00)
`Grant to Obtain a Grant ($2,000) (9/95-5/96)
`Rutgers
`Conductive Hard Ceramic Coatings ($16,000) (7/95-1/96)
`SMI/BDO
`Undergraduate Computing Facility ($582,000) (9/94)
`RUICI
`High Temperature Reflectivity of Materials ($25,086) (8/94-9/94)
`DOE/Pyro
`SDIO/SMI Quantum Si Dots ($208,656) (9/93-8/95)
`Emcore
`Hybrid MOCVD/ALE Growth of GaN ($164,804) (794-12/95)
`AFURI
`Nondestructive Evaluation of Corroded Structures ($99,668) (9/93-8/96)
`FAA
`Development of Explosives Detection Method ($4,450,138) (8/91-7/93)
`EPRI
`Orientation Dependence of Carbide Growth ($160,143) (7/93-12/94)
`Kodak
`Equipment Request for MOCVD System ($317,622) (2/93)
`NSF
`Two Station Thin Film Diffractometer ($60,000) (6/91- 11/91)
`NJ
`Centralized X-Ray Facility ($330,000) (6/91-11/92)
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`EPRI
`Ford
`GE
`FAA
`GE
`MEA
`NSF
`EPRI
`NSF
`ASM
`NJ
`Rutgers
`NSF
`EPRI
`NJ
`Rutgers
`Rutgers
`Rutgers
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`Orientation Dependence of SCC ($58,501) (6/90-8/91)
`Residual Stresses in E-Beam Weldments ($22,010) (6/90-2/91)
`Ceramic Composites ($50,000) (3/90-2/91)
`Feasibility Study for Explosives Detection ($26,655) (10/89-10/90)
`CVD Deposition of Ceramic Composites ($42,814) (4/89-3/90)
`Strain Analysis of C-Rings ($10,000) (1/89-6/89)
`Computer Grinding Model ($212,874) (9/88-8/91)
`Role of Carbides in SCC ($45,567) (7/88-6/89)
`Supercomputer Time ($50,000) (3/88-2/89)
`Travel Award ($1,200) (3/88)
`Conference Organization ($5,000) (3/88-6/88)
`Defect Mapping in Semiconductors ($1,135) (6/86-5/87)
`Grinding & Residual Stresses ($149,889) (8/85-8/87)
`Surface Induced Microplasticity During SCC ($229,059) (9/84-9/87)
`RBS Equipment Grant ($50,000) (6/84)
`Surface Initiated Fatigue Failures ($2,500) (6/84-5/85)
`Strains in Thin Films ($3,500) (6/83-5/84)
`Al-Li Alloy Development ($3,150) (6/82-5/83)
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`Publications
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`PhD Dissertation
`Studies of Microscopic Strain Distributions in Metal Systems, Directed by
`Sigmund Weissmann and Thomas Tsakalakos, Rutgers University (1982)
`
`
`Published Books (authored)
`
`Introduction to Computing for Engineers, William E. Mayo and Martin
`Cwiakala, (1997) ISBN 0-390-14579-3, McGraw-Hill/Primis Division,
`437pp
`
`Introduction to Programming with FORTRAN 90 , William E. Mayo and
`Martin Cwiakala, (1995) ISBN 0-07-041156-5, McGraw-Hill/Schaum’s
`Division, 448pp.
`
`Introduction to Programming with FORTRAN 77, William E. Mayo and
`Martin Cwiakala (1994) ISBN 0-07-041155-7, McGraw-Hill/Schaum’s
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`Division, 346pp.
`
`Introduction to Computing for Engineers, William E. Mayo and Martin
`Cwiakala (1992), ISBN 0-390-11790-0, McGraw-Hill/Primis Division,
`772pp
`
`Introduction to Computing for Engineers, William E. Mayo and Martin
`Cwiakala, (1992), ISBN 0-07-041139-5, McGraw-Hill, 580pp.
`
`Introduction to Computing for Engineers, William E. Mayo and Martin
`Cwiakala, (1992), ISBN 0-07-10832-2 (International ed.), McGraw-Hill,
`580pp
`
`The FORTRAN 90 Workbook, William E. Mayo and Martin Cwiakala,
`(1992) ISBN 0-07-041148-4, McGraw Hill, 176pp
`
`Solutions Manual to Accompany Introduction to Computing for Engineers,
`William E. Mayo, Martin Cwiakala, and Jack Yu, (1992) ISBN 0-07-
`041140-9, McGraw-Hill, 316pp.
`
`
`Published Books (edited)
`Powder Diffraction File Set 58 (on CD-ROM ), 2008, ICDD, CD-ROM
`Powder Diffraction File Set 57 (on CD-ROM ), 2007, ICDD, CD-ROM
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`Powder Diffraction File Set 56 (on CD-ROM ), 2006, ICDD, CD-ROM
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`Powder Diffraction File Set 55 (on CD-ROM), 2005, ICDD, CD-ROM
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`Powder Diffraction File Set 54 (on CD-ROM), 2004, ICDD, CD-ROM
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`Powder Diffraction File Set 53 (on CD-ROM), 2003, ICDD, CD-ROM
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`Powder Diffraction File Set 52 (on CD-ROM), 2002, ICDD, CD-ROM
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`Metals Relational Database, 2003, ICDD, CD-ROM
`
`Powder Diffraction File Set 51 (on CD-ROM), 2001, ICDD, CD-ROM
`
`Powder Diffraction File Set 50 (on CD-ROM), 2000, ICDD, CD-ROM
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`Powder Diffraction File Set 49 (on CD-ROM), 1999, ICDD, CD-ROM
`
`Powder Diffraction File Set 48 (on CD-ROM), 1998, ICDD, CD-ROM
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`Powder Diffraction File Set 47 (On CD-ROM), 1997, ICDD, CD-ROM
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`Powder Diffraction File Set 46 (On CD-ROM), 1996, ICDD, CD-ROM
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`Powder Diffraction File Set 45 (On CD-ROM), 1995, ICDD, CD-ROM
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`Powder Diffraction File Set 44 (On CD-ROM), 1994, ICDD, CD-ROM
`
`Metals and Alloys Indexes Search Manual, (1993), ICDD, 672pp.
`
`Processing and Applications of High TC Superconductors: Status and
`Prospects, William E. Mayo (1988), The Metallurgical Society, 431pp.
`
`Semiconductor-Based Heterostructures: Interfacial Structure and Stability,
`M.L. Green, J.E.E. Baglin, G.Y. Chin, H.W. Deckman, W.E. Mayo, and D.
`Narasinham (1986),The Metallurgical Society, 431pp
`
`Powder Diffraction File Set 32 (On CD-ROM), 1982, ICDD, CD-ROM
`
`Powder Diffraction File Set 31 (On CD-ROM), 1981, ICDD, CD-ROM
`
`Powder Diffraction File Set 30 (On CD-ROM), 1980, ICDD, CD-ROM
`
`Powder Diffraction File Set 29 (On CD-ROM), 1979, ICDD, CD-ROM
`
`Powder Diffraction File Set 28 (On CD-ROM), 1978, ICDD, CD-ROM
`
`
`Chapters in Books
`
`Applications of X-Ray Topographic Methods to Materials Science,
`Sigmund Weissmann and William E. Mayo, pp. 311-323, Plenum Press,
`1984
`
`Nondestructive Evaluation: Application to Material Processing, Sigmund
`Weissmann and William E. Mayo, in Nondestructive Evaluation, edited by
`R.L. Green, pp. 129-136, Plenum Press, 1984
`
`Nondestructive Evaluation: Application to Material Processing, Sigmund
`Weissmann and William E. Mayo, in Nondestructive Evaluation, edited by
`R.L. Green, pp. 185-196, Plenum Press, 1984
`
`X-Ray Measurements of Long-Range Strains: A Bridge Between
`Micromechanics and Macromechanics, S. Weissmann, Z.H. Kalman, J.
`Chaudhuri, R. Yazici and W.E. Mayo in Residual Stress and Stress
`Relaxation , Edited by E. Kula and V. Weiss, pp501-517, Plenum Press,
`1982
`
`
`Instructional Text Notebooks
`
`Mechanical Properties of Metals and Mechanically Induced Failures, W. E.
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`Mayo and Thomas Tsakalakos (1988), Center for Professional
`Advancement
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`Making and Shaping of Metals, W. E. Mayo and T. Tsakalakos (1988),
`Center for Professional Advancement
`X-ray Diffraction Laboratory Handbook, W.E. Mayo (2005), Rutgers
`
`
`
`Published Articles
`
`Characterization of Melt-blended Graphene-poly(etheretherketone)
`Nanocomposite, A. Tewatia, J. Hendrix, Z. Dong, M. Taghon, S. Tse, G.
`Chiu, W.E. Mayo, B. Kear, T. Nosker and J. Lynch, Material Sci &
`Engineering Part B, 216 (2017) 41-49.
`Observations of Nanocrystalline Cubic Boron Nitride Formed by Plasma
`Spraying, K. M. Reddy, C. Hwang, M. Ornek, S.L. Miller, W.E. Mayo, A.
`Burgess, R.A. Haber, Acta Materialia, 116 (2016) 155-165.
`
`c-BN Seeding Effect on the Phase Transition of a-BN(OC) Compound, C.
`Hwang, M. Ornek, V. Domnick, W. Mayo, S.L. Miller and R.A. Haber,
`Adv in Ceramic Armor XI (2015) Ch. 8.
`The Possible Roles of Stoichiometry, Microstructure and Defects on the
`Mechanical Behavior of Boron Carbide, R. McCuiston, J. Lasalvia, J.
`McCauley and W.E. Mayo, Ceramic Eng. And Sci Proc., 29(2009) 153-162.
`
`On the Processing of Nanostructured Ceramics, B.H. Kear & W.E. Mayo,
`Mater. Sci. Forum, 437-438 (2003) 399-402.
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`2-, H.
`Infrared Microscopic Imaging of Bone: Spatial Distribution of CO3
`Ou-Yang, E.P. Paschalls, W. Mayo, A.L. Boskey and R. Mendelsohn,
`Journal of Bone Mineral Res., 16 (2001) 893-900.
`
`Dense Nanoscale Single- and Multi-phase Ceramics Sintered by
`Transformation Assisted Consolidation, J. Colaizzi, W.E. Mayo, B.H. Kear,
`and S-C Liao, Int. J of Powder Met, 37 (2001) 45-54 (Outstanding Paper
`Award)
`
`Reduced Pressure Requirements for Production of Nanoceramic
`Composites, J. Colaizzi, W.E. Mayo, B.H. Kear, and X-Z Zhou, APMI
`Annual Meeting, New Orleans, (2001)
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`Far-Infrared Investigation of C60 High Pressure/High-Temperature
`Polymers & Dimer, V.C. Long, J.L. Musfeldt, K. Kamaras, Y.Iwasa, W.E.
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`Mayo, Ferroelectrics, 249 (2001) pp. 135-144.
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`On the Processing of Nanocrystalline and Nanocomposite Ceramics, B.H.
`Kear, J. Colaizzi, W.E. Mayo, and S.C. Liao, Scripta. Mater. 44(2001)
`2065-2068.
`
`X-ray diffraction analysis of LaC2, W. E. Mayo, Powder Diffraction File,
`51-1172 (2001).
`
`X-ray diffraction analysis of HoH2, W. E. Mayo, Powder Diffraction File,
`51-1171 (2001).
`
`X-ray diffraction analysis of Sm, W. E. Mayo, Powder Diffraction File, 51-
`1170 (2001).
`
`X-ray diffraction analysis of Ni3Ti, W. E. Mayo, Powder Diffraction File,
`51-1169 (2001).
`
`X-ray diffraction analysis of GeS, W. E. Mayo, Powder Diffraction File, 51-
`1168 (2001).
`
`X-ray diffraction analysis of CaC2, W. E. Mayo, Powder Diffraction File,
`51-1167 (2001).
`
`X-ray diffraction analysis of Na3As, W. E. Mayo, Powder Diffraction File,
`51-1166 (2001).
`
`X-ray diffraction analysis of La, W. E. Mayo, Powder Diffraction File, 51-
`1165 (2001).
`
`X-ray diffraction analysis of Ag2O2, W. E. Mayo, Powder Diffraction File,
`51-0945 (2001).
`
`X-ray diffraction analysis of BiF3, W. E. Mayo, Powder Diffraction File,
`51-0944 (2001).
`
`X-ray diffraction analysis of Fe2P, W. E. Mayo, Powder Diffraction File,
`51-0943 (2001).
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`X-ray diffraction analysis of MnP, W. E. Mayo, Powder Diffraction File,
`51-0942 (2001).
`
`X-ray diffraction analysis of W5Si3, W. E. Mayo, Powder Diffraction File,
`51-0941 (2001).
`
`X-ray diffraction analysis of MoB, W. E. Mayo, Powder Diffraction File,
`51-0940 (2001).
`
`X-ray diffraction analysis of WC, W. E. Mayo, Powder Diffraction File, 51-
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`Page 13 of 39
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`Page 13 of 41
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`0939 (2001).
`
`Structure and Interface-controlled Growth Kinetics of ZnAl2O4 Formed at
`the (11-2) ZnO/(10-12) Al2O3 Interface, C.R. Gorla, W.E. Mayo, S. C.
`Liang, Y. Lu, J. Appl. Phys., 87 (2000) 3736-3743.
`
`Thermal Sprayed Nanostructured WC/Co Hardcoatings, B.H. Kear, R.K.
`Sadanji, M. Jain, R. Yao, Z. Kalman, G. Skandan, and W.E. Mayo, J.
`Thermal Spray Tech, 9 (2000) 399-406
`
`Plasma Sprayed Nanostructured Al2O3/TiO2 Powders and Coatings, B.H.
`Kear, Z. Kalman, R.K. Sadangi, G. Skandan, J. Colaizzi, and W. Mayo,
`Acoustics, Speech and Signal Processing IEEE., 9 (2000) 483-487.
`
`Refinement of Nanoscale Grain Structure in Bulk Titania via a
`Transformation Assisted Consolidation (TAC) Method, S. C. Liao, J.
`Colaizzi, Y. Chen, B.H. Kear, W.E. Mayo, Am. Cer. Soc., 83 (2000) 2163-
`2169.
`
`Far-infrared Vibrational Properties of High-pressure/high-temperature
`C60 Polymers and C60 Dimer, V.V. Long, J.L. Musfeldt, K. Kamarás, G.B.
`Adams, J.B. Page, Y. Iwasa, and W. Mayo, Phys. Rev. B, 61(2000) 13191-
`13201.
`
`Breaking the Nanograin Barrier in Sintered Ceramics, J. Colaizzi, B.H.
`Kear, and W.E. Mayo, ICAMP 2000, New Zealand, November 2000.
`
`Using Layered Manufacturing to Create Textured Microstructures in Si3N4
`Ceramics, S. Rangarajan, B. Harper, R. McCuiston, A. Safari, Z. Kalman,
`W. Mayo, S.C. Danforth, and C. Gasdaska, MRS Proceedings 625(2000)
`179.
`
`Synthesis and Consolidation of Nanocrystalline Cubic ZrO2, Z. Zhou, W.R.
`Cannon, J. Colaizzi, B.H. Kear, and W.E. Mayo, Nano2000, Sendai, Japan
`(2000).
`
`Dense Ceramic Nano-nano Composites Produced by Transformation
`Assisted Consolidation, J. Colaizzi, W.E. Mayo, and B.H. Kear, American
`Ceramic Society Annual Meeting, St. Louis, (2000).
`
`Thermal Sprayed Nanostructured Hard Coatings, B. H. Kear and W.E.
`Mayo, NATO Science Series, 78 (2000) 113-129.
`
`Breaking the Nanoscale Barrier in Bulk, Sintered Ceramics, J. Colaizzi,
`B.H. Kear, and W.E. Mayo, Nano2000, Sendai, Japan (2000).
`
`Dense Nanoscale Single- and Multi-phase Ceramics Sintered by
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`Page 14 of 39
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`Page 14 of 41
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`Transformation Assisted Consolidation, J. Colaizzi, W.E. Mayo, B.H. Kear
`and S. C. Liao, Int. Conf. Powder Met. And Part. Mater., New York City
`(2000).
`
`Transformation-Assisted Consolidation of Bulk Nanocrystalline TiO2, S.C.
`Liao, Y.J. Chen, W.E. Mayo and B.H. Kear, Nanostructured Mater., 11
`(1999) 553-557.
`In0.5(AlxGa1-x)0.5 HEMTs for High-efficiency low-voltage Power Amplifiers:
`design, fabrication, and device results, Y. C. Wang, J.M. Kuo, F. Ren, J.R.
`Lothian, H.S. Tsai, J.S. Weiner, H.C. Kuo, C.H. Lin, Y.K. Chen and W.E.
`Mayo, IEEE Trans. On Microwave Theory and Tech., 47 (1999) 1404-
`1412.
`
`Structural, Optical, and SAW Properties of Epitaxial ZnO Films Grown on
`(012) Sapphire by MOCVD, C.R. Gorla, S. Liang, W.E. Mayo, Y. Lu, M.
`Wraback, and H. Shen , J. Appl. Phys., 85 (1999) 2595-2602.
`
`Structure-Property Relations in Mesoscopic BaTiO3 and PbTiO3, E.K.
`Akdogan, W. Mayo, A. Safari, C.J. Rawn, and E.A. Payzant, Ferroelectrics
`223 (1999) 11-18.
`
`Micro- and Nano-scaled Composites via Decomposition of Plasma Sprayed
`Ceramics, J. Colaizzi, B.H. Kear, W.E. Mayo, R. Shropshire, R.W. Rigney,
`and S. Brunhouse, (Proc. Int. Powder Federation Meeting), 1999
`
`Far-infrared Investigation of C60 Dimer and High-Pressure/High-
`Temperature Polymers, V.C. Long, J.L. Musfeldt, K. Kamaras, Y. Iwasa,
`and W.E. Mayo, Proc. LEES99, Budapest (1999).
`
`Thermal Sprayed Nanosctructred WC/Co Hardcoatings, B. H. Kear, Z.
`Kalman, R. Sadangi, R. Yao, G. Skandan, and W.E. Mayo, (Proceedings of
`Thermal Spray Processing of Nanoscale Materials II, Quebec, Canada
`(1999)
`
`High Pressure Polymerization of Single Wall Nanotubes, O. A. Voronov,
`G.S. Tompa, B. H. Kear, S.C. Liao, R. Livi, and W.E. Mayo, Joint
`International Meeting of the Electrochemical Society, Hawaii (1999).
`
`High Pressure Sintering of Fullerine Soot, O. A. Voronov, G.S. Tompa, B.
`H. Kear, R. Livi, R.O. Lautfy, and W.E. Mayo, Joint International Meeting
`of the Electrochemical Society, Hawaii (1999).
`
`Bulk Nanocrystalline Ceramics via High Pressure/Low Temperature
`Sintering, J. Colaizzi, Y.J. Chen, W.E. Mayo, and B.H. Kear, Second
`International Conf. On Science, Technology, and Applications of Sintering,
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`Page 15 of 39
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`State College PA, (1999).
`
`Bulk Nanocrystalline Ceramics via High Pressure/Low Temperature
`Sintering, S.C. Liao, Y.J. Chen, B.H. Kear, and W.E. Mayo, Proc. Of Metal
`Powder Industry Conference, Vancouver, B.C., Canada (1999)
`
`Improving the Powder Diffraction Files Metals, Alloys, and Related
`Materials Subfile, P. L. Wallace, J.N. Dann, H. Jones, W.E. Mayo, and A.
`C. Roberts, Proc. of Denver X-ray Conference, Steamboat Springs, Co
`(1999)
`
`Epitaxial Growth of (1120) ZnO on (0112) Alumina by MOCVD , S. Liang,
`C.R. Gorla, N. Emanetoglu, Y. Liu, W.E. Mayo, and Y. Lu, J. Elec. Mat.,
`27(1998) L72-L76.
`
`High Pressure/Low Temperature Sintering of Nanocrystalline Alumina,
`S.C. Liao, Y.J. Chen, B.H. Kear, and W.E. Mayo, Nanostructured
`Materials, 10(1998) 1063-1079.
`
`An In0.5(Al0.3Ga0.7)0.5P/In0.2Ga0.8As Power HEMT With 65.2% Power-Added
`Efficiency Under 1.2V Operation, Y. C. Wang, J.M. Kuo, J. R. Lothian, F.
`Ren, H.S. Tsai, J.S. Weiner, J. Lin, A. Tate, Y.K. Chen, and W.E. Mayo,
`IEEE Electron Device Letters, 34 (1998) 594-595.
`
`Schottky Barrier Heights of In0.5(AlxGa1-x)0.5P (0<x<1) Lattice Matched to
`GaAs, Y. C. Wang, J.M. Kuo, F. Ren, J.R. Lothian, and W.E. Mayo, Solid
`State Electronics, 42 (1998) 1045-1048.
`
`Epitaxial ZnO Piezoelectric Films for RF Filters, N.W. Emantoglu, W.
`Nuri, Y. Lu, C. Gorla, Y. Liu, S. Liang, W.E. Mayo, Mat. Res. Soc., 445
`(1998) 353-357.
`
`Optimization of Aluminum Composition in In0.5(AlxGa1-x)0.5P/In0.2Ga0.8As
`HEMTs for Power Applications, J.M. Kuo, Y.C. Wang, J.R. Lothian, H.S.
`Tsai, Y.K. Chen, and W.E. Mayo, J. Vac. Sci. Technol., B16 (1998) 1404-
`1407.
`
`High Pressure/Low Temperature Sintering of Nanocrystalline Ceramics:
`Processing Issues and Emerging Applications, S.C. Liao, Y.J. Chen, B.H.
`Kear, and W.E. Mayo, Fine, Ultrafine and Nanopowders, New York, NY
`(1998).
`
`Growth and SAW Properties of Epitaxial ZnO Thin Films, N. W.
`Emanetoglu, C. R. Gorla, S. Liang, Y. Lu, W.E. Mayo, and T. Kosinski,
`Proc. 1998 IEEE International Freq. Control Symp, (1998) 790-795.
`
`Single- and Double-Heterojunction Pseudomorphic In0.5(Al0.3Ga0.7)0.5P
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`/In0.2Ga0.8As High Electron Mobility Transistors Grown by Gas Source
`Molecular Beam Epitaxy, Y. C. Wang, J. M. Kuo, F. Ren, J.R. Lothian, J.S.
`Weiner, J. Lin, W.E. Mayo, and Y.K. Chen, IEEE Electron Device Letters,
`18 (1997) 550-553
`
`Microstructural Evaluation of ZnO Thin Films Deposited by MOCVD, C.R.
`Gorla, S. Liang, N. Emanetoglu, W.E. Mayo, and Y. Lu, Mat. Res. Soc.,
`482(1997) 131-136
`
`Predicting IGSCC/IGA Susceptibility of Ni-Cr-Fe Alloys by Modeling of
`Grain Boundary Chromium Depletion, W.E. Mayo, Mat. Sci. & Eng. A232
`(1997) 129-139
`
`Theory of High Pressure/Low Temperature Sintering of Bulk
`Nanocrystalline TiO2, S.C. Liao, W.E. Mayo, and K.D. Pae, Acta
`Materialia, 45 (1997) 4027-4040.
`
`Retention of Nanoscale Grain Size in Bulk Sintered Materials via a
`Pressure Induced Phase Transformation, S.C. Liao, K.D. Pae, and W.E.
`Mayo, NanoStructured Materials, 8 (1997) 645-656.
`
`Silicon and Germanium Nanoparticle Formation in an Inductively Coupled
`Plasma Reactor, C.R. Gorla, S. Liang, G. Tompa, W.E. Mayo, Y. Lu, J.
`Vac. Sci. & Tech., 15 (1997) 860-864.
`
`Epitaxial ZnO Piezoelectric Films for RF Filters, N. Emanetoglu, Y. Liu, S.
`Liang, C. Gorla, W.E. Mayo, and Y. Lu, Mat. Res. Soc. Symp. Proc.,
`495(1997) 353-357.
`Large Array of GaAs Modulators and Detectors Flip-Chip Solder Bonded
`to Silicon CMOS Using InGaP as the Selective Etch Stop for GaAs
`Substrate Removal, J. M. Kuo, Y.C. Wang, K.W. Goossen, L.M. Jan, J.E.
`Cunningham, L.A. D'Asaro, A. Ron, D. Dahringer, D.B. Buchholz, and
`W.E. Mayo, J. Crystal Growth, 175-176 (1997) 971-976.
`
`Large Array GaAs Modulators and Detectors Flip-Chip Solder Bonded to
`Silicon CMOS using InGaP as the Selective Etch Stop for GaAs Substrate
`Removal, J.M. Kuo, Y.C. Wang, K.W. Goosen, L.M.F. Chirovsky, S.P. Hui,
`B.T. Tseng, J. Walker, A.L. Lentine and W.E. Mayo, J. Crystal Growth,
`175/176 (1997) 971-976.
`
`Effect of Structural Defects and Chemical Impurities on Hall Mobilities in
`Low Pressure MOCVD Grown GaN, C.Y. Hwang, M.J. Schurman, W.E.
`Mayo, R.A. Stall, and T. Salagaj J. Elect. Mater. 26(1997) 243-251.
`
`Wear properties of Nanocrystalline TiO2 Produced by High Pressure and
`Low Temperature, Y. Iwai, M. Wada, T. Honda, K. Pae, S.C. Liao and W.E.
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`Mayo, Proceedings of JAST Tribology Conference, Osaka (1997) 209-211.
`
`High Efficiency In0.5(Al0.3Ga0.7)0.5P/In0.1Ga0.8As Power HEMT for Low
`Supply Voltage Wireless Communications, Y. C. Wang, J.M. Kuo, J.R.
`Lothian, F. Ren, H.S. Tsai, J.S. Weiner, J. Lin, A. Tate, W.E. Mayo, and
`Y.K. Chen, 55th Device Research Conference, Fort Collins, CO (1997) 70-
`71.
`
`Interface Optimization of AlInP/GaAs Multiple Quantum Wells grown by
`Gas Source MBE, J.M. Kuo, H.C. Kuo, J.Y. Cheng, Y.C. Wang, Y.Lu, and
`W.E. Mayo, J. Crystal Growth, 158 (1996) 393 - 398.
`
`Effect of Shroud Flow on High Quality InxGa1-xN Deposition, C. Yuan, T.
`Salagaj, W. Kroll, R.A. Stall, M. Schurman, C.Y. Hwang, Y. Li, W.E.
`Mayo and Y. Lu, S. Krishnakutty, R.M. Kolbas, J. Elec. Mat, 25 (1996) 749
`- 753.
`
`Role of Impurities in LP-MOCVD Grown Gallium Nitride, C. Y. Hwang, Y.
`Li, M.J. Schurman, W.E. Mayo, Y. Lu, and R.A. Stall, Mat. Res. Soc., 395
`(1996) 521-526.
`
`Photoluminescence and SIMS Studies of Hydrogen Passivation in Mg-
`doped p-type Gallium Nitride, Y. Li, Y. Lu, H. Shen, M. Wraback, C.Y
`Hwang, M. Schurman, W. Mayo, T. Salagaj, and R. A. Stall Mat. Res. Soc.,
`395 (1996) 369 - 374.
`
`Twinning of CdTe on (211) Si: Influence of Buffer Layer Thickness and
`Substrate Orientation, A. Gray, N.K. Dhar, W. Clark, J.H. Dinan, R.
`Segnan, and W.E. Mayo, Mat. Res. Soc., 399 (1996) 479-484.
`
`Nano-crystalline Titania Fabrication, Characterization and Modeling, K.
`D. Pae, S.-C. Liao, and W.E. Mayo, International Conference of Advanced
`Materials, Beijing, (1996).
`
`Large Array of GaAs Modulators and Detectors Flip-Chip Solder Bonded
`to Silicon CMOS Using InGaP as the Selective Etch Stop for GaAs
`Substrate Removal, J. M. Kuo, Y.C. Wang, K.W. Goossen, L.M. Jan, J.E.
`Cunningham, L.A. D'Asaro, A. Ron, D. Dahringer, D.B. Buchholz, and
`W.E. Mayo, Ninth Int. Conf. On Molecular Beam Epitaxy, Malibu, CA
`(1996) p 158
`
`The Growth of p-Type Epitaxial GaN Films on Sapphire Substrates in a
`Production Scale Multiwafer Rotating Disc MOCVD Reactor, C. Yuan, T.
`S