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Curriculum Vita Name: Zi-Kui Liu

Address: Department of Materials Science and Engineering, 326 Steidle Building The Pennsylvania State University, University Park, PA 16802

Phone: (814) 8651934, E-mail: prof.zikui.liu@psu.edu Phases Research Lab web: http://www.phases.psu.edu PROFESSIONAL PREPARATION

• Central South Institute of Metallurgy & Mining Process Metallurgy BS, 1982. • University of Science & Tech. Beijing, China Materials Engineering MS, 1985. • Royal Institute of Technology, Sweden Physical Metallurgy Ph.D., 1992. • Royal Institute of Technology, Sweden Materials Science Docent, 1996. • The Pennsylvania State University, USA Management Institute Certificate, 03. PROFESSIONAL APPOINTMENTS

• Distinguished Professor (2018-present) and Professor (2006-present), The Pennsylvania State University.

• Guest Professorships

o Visiting/Adjunct Professor

▪ Department of Materials Science and Engineering, MIT, 2007. ▪ Min Jiang Chair Professorship, Xiamen University, China, 2009-2015. ▪ The University of Newcastle, Australia, 2014-2015.

▪ University of Science and Technology Beijing, 2015-2020. ▪ Hunan University of Technology, 2017-2020.

▪ China National Key Laboratory for Cemented Carbide, 2017-2019. o Chang Jiang Chair Professorship of Chinese Ministry of Education, 2008-2014. o Graduate Faculty, Central South University, China, 2015-2020.

• Faculty Senate, The Pennsylvania State University, 2008-2012, Vice Chair of University Planning Committee, 2010/11, Chair 2011/12.

• Director, National Science Foundation Industry/University Cooperative Research Center for Computational Materials Design, 2005-2014. (www.ccmd.psu.edu).

• Associate Professor, The Pennsylvania State University, 2003-2006. • Assistant Professor, The Pennsylvania State University, 1999-2003. • Senior Research Scientist, QuesTek Innovations LLC, 1998.

• Research Associate, University of Wisconsin-Madison, 1996-1998. • Researcher, Royal Institute of Technology, 1992-1996.

• Manager of Transmission Electron Microscope Lab, Royal Institute of Technology, 89-96. • Teaching Assistant, University of Science & Tech. Beijing, China, 1985-1987.

TEACHING

• Teach outreach courses on computational thermodynamics and computational kinetics to scientists, engineers, professors and students in the United States from 1996 to 2011. o Two-day short courses, AEA Technology, Pittsburgh, PA 1996.

o Two-day short courses, AEA Technology, Pittsburgh, PA, 1997.

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o Three-day short courses at Carnegie Mellon University, December 1998. o Eight-day short courses, Penn State, May 2001.

o Eight-day short courses, Penn State, May 2002.

o Four-day short courses, DOE Albany Research Center, Oregon, August 2004. o Five-day short courses, South Dakota School of Mine & Tech., August 2005. o Four-day short courses, DOE NETL, Albany, Oregon, July 2007.

o Four-day short courses, Lehigh University, July 2008.

o Three Four-day short courses, Penn State, April 2009, July 2009, October 2009. o Two Four-day short courses, Penn State, May 2010, November 2010.

o Two Four-day short courses, Penn State, September 2011, October 2011. • Teach existing courses at Penn State and MIT

o Metal Lab III: Processing and Properties of Metals (Metal436, FA99, FA00). o Phase Transformations in Metals and Alloys (Metal405, SP00, SP01, SP03, SP04) o Phase Relations (MatSE410, SP06/08/10/11/12/13/14/16/17/18/19/20).

o Thermodynamics of Materials (MatSE501, FA02/03/04/05/06/08/09/10/11/12/13). o Thermodynamics and Kinetics of Materials (3.205, FA07 MIT).

• Create new courses at Penn State

o Computational Thermodynamics (MatSE498B, FA99, MatSC597C, FA00, SP05; MatSE580, SU07, SU09, SP11, SP13, FA2016).

o System Materials Design (MatSC598A, FA01).

o Computational Materials Science II: Continuum, Mesoscale Simulations (MatSC597K, SP02, SP04, SU06; MatSE581 SU08, FA10/12/15/17).

PUBLICATIONS AND PRESENTATIONS

• 550+ publications in web of science and Google Scholar

• Textbook “Computational Thermodynamics of Materials” by Cambridge University Press • Seven book chapters.

• Over 450 plenary, keynote, and invited presentations at workshops, seminars, and international conferences and meetings since 2000.

• Over 750 contributed presentations, authored or co-authored, at international conferences and meetings since 2000.

• U.S. Provisional Patent: New Composition Designation of Magnesium Alloys, Serial No. 60/335,953, 2001.

• U.S. Patent 6,797,341: Method for Producing Boride Thin Films, with Xiaoxing Xi, Xianghui Zeng, Alexej Pogrebnyakov, Joan Redwing, Darrell Schlom.

• U.S. Patent 7,090,889: Boride Thin Films on Silicon, with Zhi-Jie Liu and Xiaoxing Xi. • U.S. Provisional Patent: Methods for Compressing and Regenerating Large Microstructure

Data Sets, with Keita Teranishi, Padma Raghavan, and Long-Qing Chen, 2006-3253.

• Invention Disclosure: Easy Elastic Constant Calculation, with Yi Wang, Long-Qing Chen, PSU Invention Disclosure Number 2007-S112.

• Invention Disclosure: YPHON: A Package for Phonons and Related Thermodynamic

Properties of Solid Materials, with Y. Wang and L-Q. Chen, PSU Invention Disclosure Number 2010-S132.

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• Invention Disclosure: Database of Thermodynamic Properties for Magnesium Alloys, with S. Zhang, Y. Zhong, H. Zhang, S.L. Shang, Y. Wang, C. Brubaker, PSU Invention Disclosure Number 2010-S138.

SYNERGISTIC ACTIVITIES Professional Activities • CALPHAD

o President, CALPHAD, Inc. (a nonprofit foundation), 2013-present.

o Editor-In-Chief of CALPHAD journal, 2001-present, Associate Editor, 1998-2000. • Member of the Editorial/Advisory Board

o Computers, Materials & Continua, 2008-present. o Materials Research Letters, 2013-present.

o Results in Physics, 2013-present.

o International Materials Reviews, 2013-present. • Professional Societies

o ASM International

▪ Vice President (2018-2019), President (2019/2020).

▪ Finance Committee, Materials Education Foundation (2018-2019). ▪ Materials Properties Database Committee (2017-present).

▪ Board of Trustee (2013-2016).

▪ Alloy Phase Diagram Committee (1999-present), Vice Chair (2001-2003), Chair (2004-2007).

▪ Committee on Thermodynamics and Phase Equilibria (1998-2007).

▪ Penn State Chapter (2002-present), program chair (2005-2007), executive council (2008-2010), Secretary (2019-present).

▪ Nominating Committee (2007).

▪ J. Willard Gibbs Phase Equilibria Award Committee Chair (2008/10, 2014/16). o The Mineral, Metals & Materials Society (TMS)

▪ Nominating Committee (2013-2015).

▪ Board of Directors (2008-2011), Executive Committee (2010), Foundation Board of Trustees (2010).

▪ Electronic, Magnetic & Photonic Materials Division Council (2005-2014), Vice Chair (2006-2007), Chair (2008-2011).

▪ Materials Processing and Manufacturing Division Council (1998-2004). ▪ Joint Distinguished Lectureship in Materials & Society Selection Committee

(2015-present, chair 2017)

▪ Technical Committees on Alloy Phases (1998-present), Education (1998-2002), Magnesium (2000-present), Continue Education (2002-2005), William Hume Rothery Award/Acta Materialia Gold Medal Nominee Subcommittee (2003-2006), ad hoc ICME 2009), ad hoc Conference Co-sponsorship (2008-2009), Energy Conversion and Storage (2008-2016), ad hoc Award ((2008-2009), ICME (2009-present).

o SAE International: Non-Ferrous Materials Committee (2004-2010). • Conference/Symposium Organizer

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o ASM: User Aspects of Phase Diagrams (2004), Phase Stability, Diffusion Kinetics, and Their Applications PSDK at MS & T (2006 initiator, 2007, 2018), 5th International Conference on Thermal Process Modeling and Computer Simulation (Orlando, June 2014).

o MRS: Symposium W: Computational Materials Design via Multiscale Modeling (Fall 2008).

o TMS: Design in Materials Education (1999), Computational Thermodynamics and Materials Design (2001, initiator; 2012, 2013), Magnesium Technology (2002, 2003, 2004, 2005), Computational Phase Transformation (2002), Computational Methods in Materials Education (2003), Materials Design Approaches and Experiences II (2006), Materials in Clean Power Systems (2009, 2010, 2011), TMS-CSM (China Society of Metals) International Conference on Computational Design and Simulation of Materials (CDSM) (Shengyang 2015, TMS Annual meeting 2018). o SAE: NonFerrous symposium on Magnesium Technology (2005-2009).

o CALPHAD: Initiator and member, CALPHAD XXVII (1998, Beijing); Chair: CALPHAD XXXVI (2007, Penn State); International Scientific Committee Chair (2012-present). o MMME (International Conference on Mining, Material and Metallurgical

Engineering): Scientific Committee Member; 11 - 12 Aug 2014, Prague, Czech Republic; July 20-21, 2015, Barcelona, Spain; August 22-23, 2016, Budapest,

Hungary; June 9 - 10 2017, Rome, Italy; August 16 - 18, 2018, Madrid, Spain; August 15 - 17, 2019, Lisbon, Portugal; 16-18, 2020, Prague, Czech; August 2 - 4, 2021, Prague, Czech.

o DSL (Diffusion in Solids and Liquids): Scientific Committee Member; June 26-30, 2016, Honorary Chairman, Split, Croatia; June 24-28, 2019, Athens, Greece; June 29-July 3, 2020, Malta.

o Others: International Advisory Committee Member: Thermodynamics of Alloys (2000, Stockholm, Sweden); Technical Program Committee: The 5th International

Workshop on Ordered Intermetallics and Advanced Metallic Materials (2003, Chengdu, China); International Organizing Committee: International Conference on Magnesium--Science, Technology and Applications (2004, Beijing, China); Technical Program Committee: The 6th International Workshop on Advanced Intermetallics and Metallic Materials (2005, Nanjing, China); International Organizing Committee: 2nd International Conference on Magnesium--Science, Technology and Applications

(2006, Beijing, China); Academic Committee: International Conference of Non-Ferrous Materials (ICNFM)’ (2007, Hunan, China, 2007); Lead Organizer: Symposium 5 Computational materials design, in MMM-Multiscale Materials Modeling (2008, Tallahassee, Florida); Organizing Committee for The 14th National Conference and Multilateral Symposium on Phase Diagrams and Materials Design (2008, Changsha, China); International Scientific Committee for ICCES09- International Conference on Computational & Experimental Engineering and Sciences (2009, Phuket, Thailand); Organizing committee for Nuclear Power Symposium (October 2009, Penn State); Member of Advisory Committee of International Workshop Grain boundary diffusion, stresses and segregation (DSS-2010, Moscow, May 2010); Advisory

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St. Michaels, MD); Member of International Advisory Committee, 4th International Conference on Magnesium (Sept. 25-28, 2010, Qingdao, China); International Organizing Committee for ICCES11 (2011, Nanjing, China); 8th International Conference on Processing and Manufacturing of Advanced Materials – THERMEC’2013 (Organizer for Modelling & Simulation symposium organizer, December 2- 6, 2013 in Las Vegas, USA); Co-Chair, Computational Design and Simulation of Materials 2015, CDSM2015 (Shenyang, China, August 17-19, 2015, by TMS/Chinese Society of Metals); Technical committee, 10th International

Conference on Magnesium Alloys and Their Applications (Mg 2015, October 11 to 16 2015 in Jeju, Korea); Technical Advisory Committee, 10th International Conference

on Molten Slags, Fluxes, and Salts (Seattle, Washington on May 22–25, 2016); International Advisory Board for STEELSIM2017 (August 16-18, 2017, Qingdao, China); Scientific Program Committee (SPC) for STEELSIM2019 (August 13–15 2019, Toronto, Canada).

• Reviewer and panelist for research proposals submitted to NSF, DOE, AFSOR, DFG (Germany, panelist), NSFC (China), SNF (Switzerland) and manuscripts submitted to peer-reviewed journals; Review board member on various DOE Lab Initiatives.

• Consultant to Apple, Allegheny Ludlum, Ames National Lab, Argen, Benteler Automotive Co., ExxonMobile Research & Engin. Co., Inforscitex, Intel, Lawrence Livermore National Laboratory, Magnesium Elektron North America Inc., Materion Bruch, MatSYS, Novelis, SECAT, SK Innovation Global Technology (Korea), SpaceX, Spin-Works, University of Virginia.

Projects

• Total research grants at Penn State as PI plus shares as Co-PI since 2000: > $20 millions. • Principal Investigator (italic for completed)

1. AirForce through Lynntech, Inc.: “SBIR Phase I: Experimentally-Validated Model for Heat Treatment of 3D Printed Titanium”, 2020.

2. NASA Fellowship: “Computational design of an additive manufactured functionally graded materials for structural applications”, 2018-2022.

3. National Science Foundation: “Collaborative Research: Accurate Prediction of Phase Stability for Chemistry and Process Design of Ni-based Superalloys”, 2018-2021. 4. DOE NETL: “High Throughput Computational Framework of Materials Properties for

Extreme Environments”, 2018-2021.

5. Office of Naval Research: “Design and Additive Manufacturing of Ni-based Alloys for Naval Applications”, 2017-2020.

6. NASA Jet Propulsion Lab: “Computational Modeling Guided Materials Selection for High Temperature Interface Materials: Interface stability of thermoelectric systems”, 2016-2020.

7. Carpenter Technology: “High-throughput CALPHAD modeling of thermodynamic

databases”, 2017-2019.

8. National Natural Science Foundation of China: “Computational and experimental

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superalloys”, NSFC-51429101, hosted by Central South University (Changsha, China), 2015-2019.

9. NASA Jet Propulsion Lab: “Computational and Experimental Investigations of Gradient Materials by Additive Manufacturing”, 2016-2018.

10. NASA Jet Propulsion Lab: “Understand the effect of oxygen on the glass forming ability of a bulk metallic glass (BMG)”, 2017-2018.

11. Medtronic, Inc.: “Phase Stability and Its Implications on Castability and Rollability of Titanium Alloys” 2017-2018.

12. Medtronic, Inc.: “Phase stability in the Al2O3 –Ti system”, 2017-2018.

13. US Army Research Laboratory: “Defects Engineering in Metals”, W911NF-14-2-0084, 2014-2019.

14. Pratt & Whitney: “Phase­field Simulations of Microstructure and Stress Evolution

During Solidification and Solution Treatment of Ni-base Superalloys and the Effects of calcium oxide, magnesium oxide, aluminum oxide, and silicon oxide (CMAS)”, 2015 -2016.

15. Office of Naval Research through Lynntech, Inc.: “SBIR Phase II: Recovery of Rhenium from Ni superalloy scrap”, N00014-13-P-1004, 2015-2017.

16. DOE NETL: “Computational Design and Discovery of Ni-Based Alloys and Coatings:

Thermodynamic Approaches Validated by Experiments”, DE-FE0024056, 2014-2017. 17. NASA/Marshall Space Flight Center: “Characterization of Aluminum/Alumina/Carbon

Interactions under Simulated Rocket Motor Conditions”, NNM13AA06G, 2013-2016. 18. National Science Foundation: “CDMR: Design and processing of high-energy-density

cathodes for Li-ion batteries”, NSF-1310289, 2013-2016.

19. National Science Foundation: “SEP Collaborative: Routes to Earth Abundant

Kesterite-based Thin Film Photovoltaic Materials”, NSF-1230929, 2012-2016. 20. Army Research Lab through MATSYS: “SBIR Phase I: High-Strength Nanostructured

Silver for Shaped Charge/ EFP Liner Applications”, 2016-2017.

21. Pratt & Whitney: “Phase­field Simulations of Microstructure and Stress Evolution During Solidification and Solution Treatment of Ni-base Superalloys”, 2013-2014. 22. Office of Naval Research: “Recovery of Rhenium from Superalloy Scrap”, N00014

-13-P-1004, SBIR, 2013.

23. Pratt & Whitney: “Effects of Processing Conditions on Microstructures in Ni-based Single Crystal Superalloys”, 2012.

24. National Natural Science Foundation of China, “Computational and Experimental Investigation of Diffusion and Phase Stability in Alloys”, NSFC-51028101, hosted by Central South University (Changsha, China), 2011-2012.

25. National Science Foundation: “Computational and Experimental Investigations of Magnesium Alloys”, NSF-1006557, 2010-2015.

26. National Energy Technology Lab (NETL): “Computer-Aided Development of Novel New Materials for High Temperature Applications”, 2010-SC-RES-30033026 4000.5.690.248.001, 2010-2014.

27. National Science Foundation: “I/UCRC CGI: Center for Computational Materials Design (CCMD), Phase II”, NSF-1034965, 2010-2013.

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28. Office of Naval Research: “Integrated First Principles Calculations and Computational Modeling of Phase Stability and Thermal Expansion of Ni-Al-Pt Based Alloys”, ONR- N0014-07-1-0638, 2010-2013.

29. US Army Research Laboratory: “Computational Thermodynamic Modeling and Phase

Field Simulations for Property Prediction in Advanced Material Systems”, W911NF -09-2-0045, 2009-2014.

30. National Science Foundation: “Bridging First-principles and Molecular Dynamics

Methods to Support Alloy Design”, NSF-0823907, 2008-2010.

31. National Science Foundation: “Computational Modeling of Defects and Minor

Chemical Additives in Functional Materials”, NSF-0737759, 2008-2010.

32. US Army Research Laboratory: “Computational Thermodynamic Modeling and Phase Field Simulations for Property Prediction in Advanced Material Systems”, W911NF -08-2-0064, 2008-2009.

33. Office of Naval Research: “Integrated First-Principles Calculations and Computational Modeling of Phase Stability and Thermal Expansion of Ni-Al-Pt Based Alloys”, ONR- N0014-07-1-0638, 2007-2010.

34. National Science Foundation: “Research Experience for Teachers (RET)”, 2006-2010. 35. National Science Foundation: “Center for Computational Materials Design (CCMD)”,

NSF-0541674, 2005-2010.

36. National Science Foundation: “Computational and Experimental Investigations of Magnesium Alloys”, NSF-0510180, 2005-2009.

37. USCAR: “Computational Thermodynamics and Alloys Development of Magnesium Alloys”, DOE-05-1288, 2005-2007.

38. National Science Foundation: “Planning for Center for Computational Materials Design (CCMD)”, NSF-0433033, 2004-2005.

39. AirProducts, Inc.: “Thermodynamic modeling of perovskites”, #79-584-P-D, 2002-2015.

40. National Science Foundation medium ITR project: “ITR: Computational Tools for Multicomponent Materials Design”, NSF-0205232, 2002-2008.

41. National Institute of Standards and Technology: “Object Oriented Finite Element Modeling in Three Dimensions”, 2002-2008.

42. Department of Energy: “The Effect of Impurities on the Processing of Aluminum Alloys”, DOE-ED1803000, 2002-2005.

43. KennaMetal Inc.: “Modeling of CVD Reactions”, 26881, 2002-2005.

44. National Science Foundation: “Research Experience for Undergraduate Students”

(REU), 2001-2009.

45. National Science Foundation: “An Integrated Education Program on

Thermodynamics, Kinetics, and Materials Design,”DMR-0073836, 2000-2003. 46. National Science Foundation CAREER Award: “Integrated Teaching and Research

Activities on Computational Thermodynamics and System Materials Design of

Magnesium Alloys,” DMR-9983532, 2000-2003.

47. Wilson Research Initiation Grant, College of Earth and Mineral Science, Pennsylvania State University (1999).

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1. DOE NEUP: “High Throughput Computational Platform for Predictive Modeling of Thermochemical and Thermophysical Properties of Fluoride Molten Salts”, 2020-2022.

2. DOE BES: “Data-driven discovery of intermetallic catalysts with controlled active site nuclearity”, 2019-2022.

3. DOE EERE: “A Multi-Scale Computational Platform for Predictive Modeling of Corrosion in Al-Steel Joints”, 2018-2021.

4. DOE NEUP: “Recovery of Rare-Earth Elements (Nd, Gd, Sm) in Oxide Wasteform Using Liquid Metals (Bi, Sn)”, 2018-2021.

5. National Science Foundation: “MIP: 2D Crystal Consortium (MIP-2DCC)”, 2016-2021 6. National Science Foundation: “NRT-DESE: Computational Materials Education and

Training - Bridging Methods and Applications (COMET)”, 2015-2020.

7. AirForce: “Corrosion protection for magnesium alloys – development of novel,

environmentally compliant, magnesium coatings system with tailored properties”,

2013-2016.

8. National Science Foundation: “DMREF: Design Knowledge Base of Low-Modulus

Titanium Alloys for Biomedical Applications”, NSF-1333999, 2013-2016. 9. DARPA: “The Center for Innovative Metal Processing through Direct Digital

Deposition - A DARPA Manufacturing Demonstration Facility in Open

Manufacturing”, Office of Naval Research, N00014-12-1-0840, 2012-2014. 10. AirForce: “Cast Eglin Steel Development”, 2012-2014.

11. AirForce: “A Semantic Technology for Materials Design and Development”, 2014

12. National Science Foundation project “FRG: Two-Gap Superconductivity in Magnesium Diboride and its Implications for Applications”, NSF-0514592, 2005-2009.

13. DOE project “Prevent Solidification Defects for Large Superalloy Castings Used in Advanced Electric Power Systems”,DOE- 05-132-PSU, 2005-2007.

14. National Science Foundation project “Thermodynamic Modeling of Al and Ni Ternary Alloy Systems”, NSF-0209624, 2002-2005.

15. NASA project “Modeling Microstructure Evolution and Mechanical Properties of

Single-Crystal Ni-base Superalloys – A Mesoscale Phase-Field Approach”, DOE-002618, 2001-2005.

16. Microstructural Effect in Al-Ni-Y-Co Alloys on Performance Reliability, supported by the Applied Research Lab, Penn State, N00039-97-D-0042, $20,000/year,

09/01/2000-08/31/2005.

17. Thermodynamics of Barium Titanate and its Application in the Development of High-Density Capacitors, supported by NSF I/UCRC Center for Dielectric Studies, Penn State, NSF-0120812.

Honors

• PyCalphad: Runner-up (2nd place) in 2019 NASA Software of the Year (SOY) Competition.

• Distinguished Professor, Pennsylvania State University (2018). • William Hume-Rothery Award, TMS (2018).

• Lee Hsun Lecture Award on Materials Science, Institute of Metal Research, Chinese Academy of Sciences (IMR, CAS) (2015).

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• J. Willard Gibbs Phase Equilibria Award, ASM International (2014). • Brimacombe Medalist Award, TMS (2012).

• Faculty Mentoring Award, College of Earth and Mineral Science, Pennsylvania State University (2011).

• Wilson Award for Excellence in Research, College of Earth and Mineral Science, Pennsylvania State University (2008).

• Spriggs Phase Equilibria Award, The American Ceramic Society (2008). • Fellow, ASM International (2007).

• ASM International Materials Science Research Silver Award (2007).

• Students’ Choice Faculty of the Year Award (2007), Department of Materials Science and Engineering, Penn State.

• Penn State MRL Xerox Award for B.S. thesis of Melissa L. Marshall, 2001. • TMS Young Leader Award, 1998.

• China State Council Foreign Expert Lecturing Scholarship, 1998; China Natural Science Foundation Lecturing Scholarship, 1998; 3rd Prize of China National Key Projects, 1988; Excellent Undergraduate Mentor, University of Science and Technology Beijing, 1987. GRADUATE AND POST DOCTORAL ADVISORS

John Ågren Royal Institute of Technology, Stockholm, Sweden, Ph.D. thesis advisor. Y. Austin Chang University of Wisconsin, Madison, WI, Research Associate Advisor. STUDENTS AND POSTDOCTORAL SCHOLARS

Graduate Student: Brandon Bocklund, Cole Britt, Rushi Gong, Adam Krajewski, John Shimanek Jorge Paz Soldan, Hui Sun.

Research Professor: Shun-Li Shang, Yi Wang. Postdoc Fellow: Hongyuen Kim.

Visiting Scholar: Jinglian Du, Bo Gao, Mingqing Lia, Jiayi Zheng.

Graduated: PhD (29): Weiming Feng (N/A), Swetha Ganeshan (India), William Golumbfskie (Naval Surface Warfare), Pinwen Guan (CMU), Yongjie Hu (Drexel U), Chao Jiang (INL), Dong Eung Kim (KITECH), Hongyeun Kim (PSU), Soon il Lee (Korean Inst. Ceramics Eng. Tech.), Sung Hoon Lee (Corning), Xuan Liu (Pratt & Whitney), Manjeera Mantina (N/A), Cassie Marker (Almatis), Zhigang Mei (ANL), Richard Otis (JPL), Koray Ozturk (Turkey), Austin Ross (Pratt & Whitney), James Saal (Citrine), Arkapol Saengdeejing (Tohoku U), Guang Sheng (Owens Corning), Dongwon Shin (ORNL), Bill Wang (NWPU, China), Tao Wang (Carpenter), Hui Zhang (Hyperion), Jiangxian Zhang (GE Aviation), Chelsey Zacherl Hargather (New Mexico Tech), Shengjun Zhang (Textron), Yu Zhong (WPI), Bi-Cheng Zhou (UVA). MS (11): Carl Brubaker, Matthew Feurer, William Golumbfskie, Bradley Hasek, Panwei Jiang, Yan Ling, Austin Ross, James Saal, Bill Wang, Mei Yang, Lei Zhang. BS (24): Katelyn Adkison, Weihang Du, Jawaher Mutlaq Almutlaq, Chad Althouse, Jason Arndt, Matthew Benzio, Madaline Boyer, Christina Ciganik, Briama Cooper, Abdelaziz Elmadani, Bradley Hasek, Justin Hyska, Roger Ice, Harvey Joseph, Frank McGrogan, Yan Ling, Laura Jean Lucca, Melissa Marshall, Justin Savrock, Laura Schell, Lauren Skrabski, Ricki Stevenson, Tuan Tran, Ned Ullrich. REU(23). RET(1). REV(1). WISER(12).

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Past research fellows (51): Raymundo Arroyave, Morten Bakkedal, Bonnie Brusewitz, Fang Cheng, Pei-Tzu Cheng, Xiaoyu Chong, Huazhi Fang, Dmitry Filimonov, Peng Gao, Edwin Garcia, William Golumbfskie, Pinwen Guan, Cuiping Guo, Jiajia Han, Takayuki Honda, Shengyang Hu, Yongjie Hu, Xidong Hui, Neal Kelly, Yulan Li, YongFeng Liang, Alyson Lieser, Greta Lindwall, Jinming Liu, Zhi-Jie Liu, Qianxin Long, Rhonald Lua, Jianbo Ma, Rui Ma, Venkateswara Rao Manga, Lei Ni, Marlena Ostrowska, Sara Prins, Chinnapan Ravi, Dongwon Shin, Zhuli Tan, Brain Vanleeuwen, Cheng Wang, William Yi Wang, Jiong Wang, Kang Wang, Tao Wang, Wenyi Wang, Ran Wei, Weiwei Xu, Hongwei Yang, Qiang Yao, Xinyu Ye, Bi-Cheng Zhou, Shihuai Zhou, Jinzhi Zhu.

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