(PDF) Curriculum Vitae: Guangwen Zhou - Binghamton University · PDF fileCurriculum Vitae: Guangwen Zhou ... x-ray and electron diffraction, ... • NSF in situ TEM workshop fellowship (Arizona, - PDFSLIDE.NET (2024)

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Curriculum Vitae: Guangwen Zhou

Department of Mechanical Engineering & Materials Science and Engineering Program State University of New York at Binghamton Tel: (607) 777-5084 Email: [emailprotected] Research website: http://ws.binghamton.edu/me/Zhou/index.html Education Ph.D., December 2003, Materials Science, University of Pittsburgh, advisor: Judith C Yang M.S., July 1996, Physics, Beijing University of Technology, China B.S. July 1993, Physics, Xiangtan University, China Research Focus

• Materials interactions with extreme environments (chemical and thermomechanical extremes) • Atomistic mechanisms of surface and interface phenomena • Dynamic in situ electron and scanning probe microscopies (e.g. transmission electron microscopy,

scanning tunneling microscopy), x-ray and electron diffraction, and spectroscopies (e.g. X-ray photoelectron spectroscopy, Auger Electron Spectroscopy)

• Correlating in situ microscopy/spectroscopy/diffraction measurements with materials applications in heterogeneous catalysis, batteries, electronics devices, etc.

• Materials modeling and simulations: density-functional theory, kinetic Monte Carlo, etc. Professional Experience 2017-present Professor, Department of Mechanical Engineering & Materials Science and

Engineering Program, co-Director, Materials Science and Engineering Program, State University of New York, Binghamton

2013-2017 Associate Professor, Department of Mechanical Engineering & Materials Science and Engineering Program, State University of New York, Binghamton

2007-2013 Assistant Professor, Department of Mechanical Engineering & Materials Science and Engineering Program, State University of New York, Binghamton

2006-2007 Research Assistant Professor, Department of Mechanical Engineering and Materials Science, University of Pittsburgh 1996-1999 Research Associate, Beijing Laboratory for Electron Microscopy, Institute of Physics, Chinese Academy of Sciences Honors and Awards • SUNY Chancellor's Award for Excellence in Scholarship and Creative Activities (2016) • NSF – CAREER (2011) • SUNY Faculty Individual Development Award (2009) • NSF in situ TEM workshop fellowship (Arizona, 2006) • Finalist of Argonne’s named post-doctor fellowship (2003) • Graduate Student Research Silver Award, Materials Research Society (Boston, 2002) • Microscopy and Microanalysis, “Best Materials Science Paper of 2001”, with J.C. Yang, M.D.

Bharadwaj, and L. Tropi Awards Received by my Graduate Students

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• PhD student Wenhui Zhu - Best Poster Award, Microscopy and Microanalysis (2016) • PhD student Wenhui Zhu – Presidential Scholar Award, Microscopy Society of America (2015) • PhD student Qiyue Yin – Presidential Scholar Award, Microscopy & Microanalysis (2015) • PhD student Qianqian Liu – Best Talk Award, Hudson Mohawk AVS Chapter (2015) • PhD student Wenhui Zhu – 2016 Winter School Scholarship on High Resolution Electron

Microscopy, Arizona State University • PhD student Liang Li – Graduate Student Excellence Award in Research, Binghamton University

(2014) • PhD student Lu Yuan – Best Poster Award, Science-to-Technology Day, Binghamton University

(2013) Media Coverage • “New research finds cause of alloy weakness”, Binghamton News, Brookhaven Newsroom;

Department of Energy, Office of Science, University News; Phys.org, Nov 30, 2017 • “Binghamton University Researchers Look to Prevent Another Flint Water Crisis”, Fox 40 News,

May 10, 2016; Phys.org, May 3, 2016 • “Aluminum alloy acts to inhibit corrosion”, Tech Beat (Society of Tribologists and Lubrication

Engineers), March, 2105 • “Microscopy reveals how atom-high steps impede oxidation of metal surfaces”, Phys.org, Dec. 29,

2014; Brookhaven Newsroom; Department of Energy, Office of Science, Science Headlines. • “Edges easy surface oxidation of metals”, Chemical & Engineering News, Science & Technology Concentrates,

Dec 17, 2012 • “Mechanical engineer recognized for leading the way in 'green' manufacturing process”, Phys.org,

June 27, 2011 • “Researcher seeks to understand corrosion”, Discover-e Binghamton Research, Sept. 22, 2008 Funding History: 2007 - present: $3,802,732 (total) On-going projects • Department of Energy, Basic Energy Science Office, Division of Materials Science and Engineering,

Synthesis and Processing Science Program, “In situ visualization and theoretical modeling of early stages of oxidation of metals and alloys” $1,326,000, 05/15/2009 – 05//14/2018, sole PI

• Department of Energy, Energy Frontier Research Centers (EFRC), “Northeast Center for Chemical Energy Storage” $12.8M, 09/01/2014 – 08/31/2018 PI: Stan Whittingham (portion for Zhou: $600,000)

• National Science Foundation, Division of Chemical, Bioengineering, Environmental, and Transport Systems (CBET), Catalysis and Biocatalysis Program, “Collaborative research: In-situ characterization of methanol oxidation catalyzed by copper-based materials” $670,000, 09/01/2013-08/31/2017 PI: Judith C Yang (University of Pittsburgh), co-PIs: Goetz Veser (University of Pittsburgh); Guangwen Zhou (SUNY Binghamton) (portion for Zhou: $210,000)

• Pacific Northwest National Laboratory, “Materials Synthesis and Simulations Across Scales”

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$77,000, 10/15/2016 – 10/14/2018

Funded Research: completed projects

• National Science Foundation–CAREER, “Atomic scale study of reduction of metal oxides”, $423,718, 05/2011 – 09/2016

• National Science Foundation, Division of Civil, Mechanical, and Manufacturing (CMMI), Materials and Surface Engineering Program, “Collaborative research: structure-property relationships of lead-free nano-solders” $459,000, 09/01/2012-08/31/2017 PI: Zhiyong Gu (UMASS Lowell); co-PIs: Sammy Shina (UMASS Lowell); Guangwen Zhou (SUNY Binghamton) (portion for Zhou: $195,000)

• National Science Foundation, Division of Chemical, Bioengineering, Environmental, and Transport Systems (CBET), Process Reaction Engineering Program, “Making superior alumina thin film via ozone oxidation of aluminum: correlation between oxidation mechanism and nanoscale atomic structure in amorphous oxide films” $330,846, 09/01/2009 – 08/31/2013, sole PI

• National Science Foundation, Division of Civil, Mechanical, and Manufacturing (CMMI), Materials and Surface Engineering Program, “Probe nanoscale oxidation of metals under applied stress” $290,361, 08/01/2008-07/31/2013, sole PI

• Argonne National Laboratory, “Develop advanced cathode materials for lithium ion batteries” $200,000, 2009-2013, sole PI

• Petroleum Research Funds, American Chemical Society, “Methanol oxidation catalyzed by Cu-based catalysts investigated by in situ UHV-Transmission Electron Microscopy” $100,000, 04/2008-10/2010 PI: J.C. Yang (University of Pittsburgh), co-PI: Guagnwen Zhou (SUNY Binghamton) (portion for Zhou: $50,000)

• IEEC - Binghamton University, "Enhance the Cu/EMC Interface Adhesion by Controlling the surface finish of Cu" $54,307, 07/2014-12/2015

• SUNY Research Foundation Collaboration Funds, "Collaborative research to advance scientific

knowledge of the mechanism of corrosion in civil infrastructures" $54,000, 12/01/2012-11/30/14 PI: Salvatore Salamone (SUNY Buffalo), co-PI: Guangwen Zhou (SUNY Binghamton) (portion for Zhou: $27,000 + $15,000 match funds from Binghamton University

• Binghamton University - 2013 Smart Energy Transdisciplinary Area of Excellence Request for Proposals, "Development of ultrahigh capacity lithium-ion battery anode materials" $15,000, 01/2014-06/2014, Jiye Fang, Louis Piper, Guangwen Zhou (portion for Zhou: $3,500) User Facility Proposals Awarded

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• Brookhaven National Laboratory, Center for Functional Nanomaterials, “In situ STM/XPS study of the initial oxidation of metals and alloys ”, facilities: variable temperature UHV-STM-XPS, low-energy electron microscopy (LEEM), 09/2010-08/2018

• Brookhaven National Laboratory, Center for Functional Nanomaterials, “Understanding the role of

surface oxygen on copper catalyzed graphene growth", facilities: environmental TEM, LEEM, XPS, 09/2014-08/2016

• Brookhaven National Laboratory, Center for Functional Nanomaterials, “Bridging the pressure gap in transient oxidation of metals and alloys", facilities: ambient-pressure XPS, reactor-STM, 01/2013-12/2017

• Argonne National Laboratory, Center for Nanomaterials, “In situ STM study of the atomic mechanism of oxidation of Cu(110)”, 06/2011 – 05/2012, 06/2013 – 05/2016, facilities: variable temperature UHV-STM – Omicron system

• NSF Extreme Science and Engineering Discovery Environment (XSEDE, formerly known as Teragrid) supercomputer time allocation (2009-2016). Total allocation accumulated: ~ 5 million cpu-hours

• Oak Ridge National Laboratory, Center for Nanophase Materials Sciences, "Atomic scale study of the reduction of metal oxides", 08/2013 – 07/2014, variable-temperature UHV-STM

Book Chapters

1. G.W. Zhou, Encyclopedia of Interfacial Chemistry: Surface Science and Electrochemistry, Air formed film – Mott-Cabrera Model (Elsevier 2017)

2. G.W. Zhou, Judith C Yang, "In-Situ TEM Studies of Oxidation", In situ Electron Microscopy, ed. Gerhard Dehm, James M. Howe, Josef Zweck, Wiley-VCH (2012) – (selected for the book cover)

3. Z. Zhang, L.S. Chen, G.W. Zhou, “Low Dimensional Materials and Their Microstructures Studied by High Resolution Electron Microscopy”, Progress in Transmission Electron Microscopy I: Concepts and Techniques; II: Application in Materials Science, ed. X.F. Zhang, and Z. Zhang, Springer, Germany (2001)

Journal Publications

1. L.F. Zou, C.M. Yang, Y.K. Lei, D. Zakharov, J.M.K. Wiezorek, D. Su, Q.Y. Yin, J. Li, Z.Y. Liu, E.A. Stach, J.C. Yang, L. Qi, G.F. Wang, G.W. Zhou, “Facilitating dislocation nucleation through atomic segregation”, Nature Materials (10.1038/nmat5034, in press)

2. L.F. Zou, J. Li, D. Zakharov, E.A. Stach, G.W. Zhou, “In situ atomic-scale imaging of the metal/oxide interfacial transformation”, Nature Communications 8, 307 (2017)

3. L.F. Zou, J. Li, D. Zakharov, W.A. A. Saidi, E.A. Stach, G.W. Zhou, “Atomically visualizing elemental segregation induced surface restructuring”, J. Phys. Chem. Lett. 8, 6035-6040 (2017)

4. H.L. Qin, X.D. Chen, J. Li, P. Sutter, G.W. Zhou, “Atomic-step-induced local nonequilibrium effects on surface oxidation”, Journal of Physical Chemistry C 121, 22846-22853 (2017)

5. D.X. Wu, J. Li, G.W. Zhou, “Oxygen adsorption at heterophase boundaries of the oxygenated Cu(110)”, Surface Science 666, 28-43 (2017)

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6. P. Meng, G.W. Zhou, C.L. Chen, “2D nanomaterials assembled from sequence-defined molecules”, Nano-Structures & Nano-Objects (in press, 2017) (DOI: https://doi.org/10.1016/j.nanoso.2017.09.010)

7. L.K. Wang, C.Y. Cai, Y.C. Zhou, G.W. Zhou, “Initial-stage oxidation of Ni3Al(100) and (110): from Ab Initio thermodynamics”, Journal of Physical Chemistry C 121, 19191-19200 (2017)

8. Y. Shu, T. Ando, Q.Y. Yin, G.W. Zhou, Z.Y. Gu, “Phase diagram and structural evolution of tin/indium (Sn/In) nanosolder particles: from a non-equilibrium state to an equilibrium state”, Nanoscale 9, 12398 (2017)

9. H.L. Chang, C.Y. Cai, Y.G. Wang, Y.C. Zhou, L. Yang, G.W. Zhou, Calcium-rich CMAS corrosion induced microstructure development of thermal barrier coatings, Surface and Coatings Technology 324, 577-584 (2017)

10. Q.Q. Liu, J. Li, X. Tong, G.W. Zhou, “Enhancing Dissociative Adsorption of Water on Cu(111) via Chemisorbed Oxygen”, Journal of Physical Chemistry C 121(22), 12117–12126 (2017)

11. J. He, Y. Zhao, Y. Wang, J.Wang, J. Zheng, H.L. Zhang, G.W. Zhou, C.M. Wang, S. Wang, X. Ma, “A Fe5C2 nanocatalyst for the preferential synthesis of ethanol via dimethyl oxalate hydrogenation”, Chemical Communications 53, 5376-5379 (2017)

12. Y. Shu, Q.Y. Yin, J. Benedict, G.W. Zhou, Z.Y. Gu, “One-Step Synthesis and Size Control of Tin/Indium (Sn/In) Nanowires by Surfactant-Assisted Chemical Reduction Methods in Aqueous Solutions”, Journal of Alloys and Compounds 712, 848-856 (2017)

13. Q.Y. Yin, F. Gao, J.R. Wang, Z.Y. Gu, E.A. Stach, G.W. Zhou, “Length-dependent melting behavior of Sn nanowires”, Journal of Materials Research 32, 1194-1202 (2017)

14. H.L. Zhang, K. Karki, Y.Q. Huang, M.S. Whittingham, E.A. Stach, G.W. Zhou, “Atomic Insight into the Layered/Spinel Phase Transformation in Charged LiNi0.80Co0.15Al0.05O2 Cathode Particles”, Journal of Physical Chemistry C 121(3), 1421-1430 (2017)

15. W.H. Zhu, J. Winterstein, W.-C.Yang, L. Yuan, R. Sharma, G.W. Zhou, “In situ Atomic-Scale Probing of the Reduction Dynamics of 2-Dimensional Fe2O3 Nanostructures”, ACS Nano 11(1), 656-664 (2017)

16. Q.Y. Yin, F. Gao, J.R. Wang, Z.Y. Gu, E. Stach, G.W. Zhou, “Interface dynamics in one-dimensional nanoscale Cu/Sn diffusion couples”, Acta Materialia 125, 136-144 (2017)

17. Q.Q. Liu, H.L. Qin, J.A. Boscoboinik, G.W. Zhou, “A comparative study of oxidation of NiAl(100) by molecular oxygen and water vapor using ambient-pressure X-ray photoelectron spectroscopy”, Langmuir 32, 11414-11421 (2016)

18. W.T. Shan, Q.Q. Liu, J. Li, N. Cai, W.A. Saidi, G.W. Zhou, “Hydrogen-induced atomic structure evolution of the oxygenated Cu(110) surface”, Journal of Chemical Physics (in press, 2016)

19. K. Karki, Y.Q. Huang, S. Hwang, A. Gamalski, M.S. Whittingham, G.W. Zhou, E. Stach, “Tuning the activity of oxygen in LiNi0.8Co0.15Al0.05O2 (NCA) battery electrodes", ACS Applied Materials & Interfaces (in press, 2016)

20. Y.G. Wang, C.Y. Cai, L. Li, L. Yang, Y.C. Zhou, G.W. Zhou, “Oxygen vacancy ordering induced displacements of cations in yttria-stabilized zirconia”, AIP Advances 6, 095113 (2016)

21. F. Gao, Q.Y. Yin, J.R. Wang, G.W. Zhou, Z.Y. Gu, “Synthesis and Characterization of One-dimensional Cu-Sn Nanowire Diffusion Couples for Nanowire Assembly and Interconnection”, IEEE 66th Electronic Components and Technology Conference, 2329-2334 (2016)

22. W.H. Zhu, J. Winterstein, I. Maimon, Q.Y. Yin, L. Yuan, A. Kolmogorov, R. Sharma, G.W. Zhou, “Atomic structural evolution during the reduction of α-Fe2O3 nanowires”, Journal of Physical Chemistry C 120, 14854-14862(2016)

23. Q. Zhu, L.F. Zou, G.W. Zhou, W.A. Saidi, J.C. Yang, “Early and transient stages of Cu oxidation: Atomistic insights from theoretical simulations and in situ experiments”, Surface Science 652, 98-113(2016)

24. H.W. Feng, Y.Q. Wang, C. Wang, F.Y. Diao, W.H. Zhu, P. Mu, L. Yuan, G.W. Zhou, F. Rosei, “Defects-induced enhanced photocatalytic activities of reduced α-Fe2O3 nanoblades”, Nanotechnology 27, 296753(2016)

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25. Y.Q. Huang, N.A. Chernova, Q.Y. Yin, Q. Wang, N.F. Quackenbush, M. Leskes, J. Fang, F. Omenya, R. Zhang, M.J. Wahila, L.F.J. Piper, G.W. Zhou, C.P. Grey, M.S. Whittingham, “What Happens to LiMnPO4 upon Chemical Delithiation?”, Inorganic Chemistry 55, 4335-4343(2016)

26. L.L. Luo, L.F. Zou, D.K. Schreiber, D.R. Baer, M.J. Olszta, S.M. Bruemmer, G.W. Zhou, C.M. Wang, “In situ atomic scale visualization of surface kinetics driven dynamics of oxide growth on Ni-Cr surface”, Chemical Communications 52, 3300-3303(2016)

27. J. Li, G.F. Wang, G.W. Zhou, “Surface segregation phenomena in extended and nanoparticle surfaces of Cu-Au alloys”, Surface Science 649, 39-45(2016)

28. J. Li, G.W. Zhou, “Density functional theory study of O-H and C-H Bond Scission of methanol catalyzed by a chemisorbed oxygen layer on Cu(111)”, Surface Science 646, 288-297(2016)

29. L.L. Luo, L.F. Zou, D.K. Schreiber, D.R. Baer, S.M. Bruemmer, G.W. Zhou, C.M. Wang, “In-situ transmission electron microscopy study of surface oxidation for Ni-10Cr and Ni-20Cr alloys”, Scripta Materialia 114, 129-132(2016)

30. C.Y. Cai, S. Chang, Y.C. Zhou, L. Yang, G.W. Zhou, Y.G. Wang, “Microstructure characteristics of EB-PVD YSZ thermal barrier coatings corroded by molten volcanic ash”, Surface and Coatings Technology 286, 49-56 (2016)

31. C. Wang, Y.Q. Wang, X.H. Liu, H.W. Yang, J.R. Sun, L. Yuan, G.W. Zhou, F. Rosei, “Structure versus properties in α-Fe2O3 nanowires and nanoblades”, Nanotechnology 27, 035702 (2016)

32. Q.Q. Liu, X. Tong, G.W. Zhou, "H2O dissociation induced aluminum oxide growth on oxidized Al(111) surfaces", Langmuir 31, 13117-13126 (2015)

33. L. Yuan, X.M. Chen, S. Maganty, J. Cho, C.H. Ke, G.W. Zhou, “Enhancing copper and its oxide interfacial adhesion by using sandblasted copper surfaces”, Applied Surface Science 357, 2160-2168 (2015)

34. H.L. Qin, X.D. Chen, L. Li, P. Sutter, G.W. Zhou, “Oxidation-driven surface dynamics on NiAl(100)”, Proceeding of the National Academy of Sciences 112 (2), E103-109 (2015)

35. W.H. Zhu, J.P. Winterstein, R. Sharma, G.W. Zhou, “Atomic-scale characterization of the reduction of a-Fe2O3 nanowires”, Microscopy and Microanalysis 21 (S3), 995-996 (2015)

36. Q.Y. Yin, F. Gao, Z.Y. Gu, G.W. Zhou, “In-situ visualization of the metallurgical soldering reaction in the nanoscale Cu-Sn diffusion couples”, Nanoscale 7, 4984-4994 (2015)

37. J. Li, L. Li, G.W. Zhou, “Oxygen adsorption at the domain boundaries in Cu(110)-(2×1)-O chemisorbed layer”, Journal of Chemical Physics 142, 084701 (2015)

38. L.L. Luo, Y.H. Kang, J. C Yang, G.W. Zhou, “The nucleation and growth of oxide islands during the initial-stage oxidation of Cu-Pt(100) surfaces”, Journal of Applied Physics 117, 065305 (2015)

39. D.P. Wang, I. Belharouak, L.H Ortega, X.F. Zhang, R. Xu, D.H. Zhou, G.W. Zhou, K. Amine, “Synthesis of high capacity cathodes for lithium-ion batteries by morphology-tailored hydroxide Co-precipitation”, Journal of Power Sources 274, 451-457 (2015)

40. L. Li, L.L. Luo, J. Ciston, W.A. Saidi, E.A. Stach, J.C. Yang, G.W. Zhou, “Surface-step-induced oscillatory oxide growth", Physical Review Letters 113, 136104 (2014)

41. L. Li, N. Cai, W.A. Saidi, G.W. Zhou, “Role of oxygen in Cu(110) surface restructuring in the vicinity of step edges”, Chemical Physical Letters 613, 64-69 (2014)

42. L. Li, Q.Q. Liu, J. Li, W.A. Saidi, G.W. Zhou, “Kinetic barriers of the phase transition in the oxygen chemisorbed Cu(110)-(2x1)-O as a function of oxygen coverage”, Journal of Physical Chemistry C 118, 20858-20866 (2014)

43. H.L. Qin, P. Sutter, G.W. Zhou, “The Crystallization of amorphous aluminum oxide thin film grown on NiAl(100)”, Journal of American Ceramic Society 97, 2762-2769 (2014)

44. C. Wang, Y.Q. Wang, X.H. Liu, F.Y. Diao, L. Yuan, G.W. Zhou, “Novel hybrid nanocomposites of polyhedral Cu2O nanoparticles/CuO nanowires with enhanced photoactivity”, Physical Chemistry Chemical Physics 16, 17487-17492 (2014)

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45. L. Yuan, A.G. Van Der Geest, W.H. Zhu, Q.Y. Yin, L. Li, A. Kolmogorov, G.W. Zhou, “Reduction of CuO nanowires confined by a nano test tube”, RSC Advances 4, 30259-30266 (2014)

46. Q.Q. Liu, N. Cai, L. Li, W.A. Al-Saidi, G.W. Zhou, “Oxygen chemisorption induced surface phase transition on Cu(110)”, Surface Science 624, 75-84 (2014)

47. L.L. Luo, Y.H. Kang, J.C. Yang, D. Su, E.A. Stach and G.W. Zhou, “Comparative study of the alloying effect on the initial oxidation of Cu-Au(100) and Cu-Pt(100)”, Applied Physics Letters 104, 121601 (2014)

48. Y.Q. Wang, C. Wang, L. Yuan, R.S. Cai, C.Y. Li, X.H. Liu, G.W. Zhou, “Naturally-occurred coincidence-site-lattice twist boundaries in bicrystalline α-Fe2O3 nanoblades”, Journal of Physical Chemistry C 118, 5796-5801 (2014)

49. N. Cai, Q.Q. Liu, X. Tong, G.W. Zhou, “X-ray photoelectron spectroscopic study of the passivation of NiAl(100) surface by water vapor”, Langmuir 30, 774-783 (2014)

50. L. Yuan, C. Wang, R.S. Cai, Y.Q. Wang, G.W. Zhou, “Temperature-dependent growth mechanism and microstructure of ZnO nanostructures grown from thermal oxidation of zinc”, Journal of Crystal Growth 390, 101-108 (2014)

51. D.J. Clark, L. Yuan, C.O. Otieno, G.W. Zhou, J.I. Jang, “Impurity and morphological dependence on photoluminescence and enhanced impurity-induced two-photon absorption in ZnO”, Solid State Communications 181, 9-14 (2014)

52. L. Yuan, Q.Y. Yin, Y.Q. Wang, G.W. Zhou, “CuO reduction induced formation of CuO/Cu2O hierarchical hybrid oxides”, Chemical Physics Letters 590, 92-96 (2013)

53. G.W. Zhou, L.L. Luo, L. Li, J. Ciston, E.A. Stach, W.A. Saidi, J.C. Yang, “In situ atomic visualization of oxide islanding during oxidation of Cu surfaces”, Chemical Communications 49, 10862-10864 (2013)

54. N. Cai, H.L. Qin, T. Xiao, G.W. Zhou, “Growth of ultrathin amorphous alumina film during the oxidation of NiAl(100)”, Surface Science 618, 20-26 (2013)

55. H.L. Qin, G.W. Zhou, “The formation double-row oxide stripes during the initial-oxidation of NiAl(100)”, Journal of Applied Physics 114, 083513 (2013)

56. Y.Q. Wang, M.H. Zhang, Q. Shao, L. Yuan, G.W. Zhou, “Mechanism of the oxidation of iron”, Advanced Materials Research 709, 106 (2013)

57. L. Yuan, R.S. Cai, J.I. Jang, W.H. Zhu, C. Wang, Y.Q. Wang, G.W. Zhou, “Morphological transformation of hematite nanostructures during the oxidation of iron”, Nanoscale 5, 7581-7588 (2013)

58. L. Yuan, C. Wang, R.S. Cai, Y.Q. Wang, G.W. Zhou, “Spontaneous ZnO nanowire formation during the oxidation of Cu-Zn alloy”, Journal of Applied Physics 114, 023512 (2013)

59. L. Li, G.W. Zhou, “Oxygen subsurface adsorption on the Cu(110)-c(6×2) surface”, Surface Science 615, 67-74 (2013)

60. Y.H. Kang, L.L. Luo, X. Tong, D.E. Starr, G.W. Zhou, J.C. Yang, “Transient Oxidation of Cu-5at.%Ni(001)- Temperature-dependent sequential oxide formation”, Oxidation of Metals 79, 303 (2013)

61. R.S. Cai, S. Lei, X.H. Liu, Y.Q. Wang, L. Yuan, G.W. Zhou, “A new modulated structure in α-Fe2O3 nanowires”, Chin. Phys. B 22, 107401 (2013)

62. D.P. Wang, I. Belharouak, G.W. Zhou, K. Amine, “Synthesis of Lithium and Manganese-Rich Cathode Materials Via an Oxalate Co-precipitation Method”, Journal of the Electrochemical Society 160, A3108 (2013)

63. D.P. Wang, I. Belharouak, G.W. Zhou, K. Amine, “Nanoarchitecture Multi-Structural Cathode Materials for High Capacity Lithium Batteries”, Advanced Functional Materials 23, 1070-1075 (2013)

64. N. Cai, G.W. Zhou, K. Müller, D.E. Starr, “Comparative study of the passivity of Al(111) by molecular oxygen and water vapor”, Journal of Physical Chemistry C 117, 172 (2013)

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65. W.A. Al-Saidi, M.Y. Lee, L. Li, G.W. Zhou, A.J.H. McGaughey, “Ab initio atomistic thermodynamics study of the early stages of Cu(100) oxidation”, Physical Review B 86, 245429 (2012)

66. G.W. Zhou, L.L. Luo, L. Li, J. Ciston, E. Stach, J.C. Yang, “Step edge induced oxide growth during the oxidation of Cu(100)” Physical Review Letters 109, 235502 (2012)

67. L. Yuan, G.W. Zhou, “Suppression of ZnO nanowire formation in high temperature oxidation by sandblasting brass”, Materials Focus 1, 222-228 (2012)

68. M. Gu, I. Belharouak, A. Genc, D.P. Wang, Z.G. Wang, K. Amine, F. Gao, G.W. Zhou, S. Thevuthasan, D.R. Baer, J.G. Zhang, N.D. Browning, J. Liu, and C.M. Wang, “The role of Ni diffusion in controlling cathode surface structure and the performance of Li-ion batteries”, Nano Letters 12, 5186(2012)

69. M. Gu, D.P. Wang, G.W. Zhou, I. Belharouak, J.-G. Zhang, K. Amine, S. Thevuthasan, D.R. Baer, J. Liu, N.D. Browning, C.M. Wang “Atomic Level Direct Imaging of Cation ordering and phase separation in Li1.2Ni0.2Mn0.6O2 nanoflakes”, Microscopy and Microanalysis 18, 1408-1409 (2012)

70. L. Yuan, G.W. Zhou, “The growth of one-dimensional oxide nanowires by thermal oxidation of metals”, International Journal of Nano Science, Nano Engineering and Nanotechnology 4, 1-22 (2012) (review article)

71. N. Cai, G.W. Zhou, K. Müller, D.E. Starr, “Temperature and pressure dependent Mott potentials and their influence on self-limiting oxide film growth”, Applied Physics Letters 101, 171605(2012)

72. L.L. Luo, Y.H. Kang, J.C. Yang, G.W. Zhou, “Effect of oxygen gas pressure on the orientations of Cu2O nuclei during the oxidation of Cu(100), (110) and (111)”, Surface Science 606, 1790-1797(2012)

73. F. Gao, Z.Y. Liu, G.W. Zhou, J. Yang, Z.Y. Gu, “Fast diffusion and void formation in two-segment copper-tin lead-free nanowire system with one-dimensional confinement”, Science of Advanced Materials 4, 881-887 (2012)

74. L.L. Luo, Y.H. Kang, J.C. Yang, G.W. Zhou, “Influence of the surface morphology on the early stages of Cu oxidation”, Applied Surface Science 259, 791-798 (2012)

75. L.L. Luo, L. Li, J. Ciston, E.A. Stach, J.C. Yang, G.W. Zhou, “Atomic-scale visualization of the oxidation of Cu surfaces via in situ environmental TEM”, Microscopy and Microanalysis 18, 1122-1123 (2012)

76. J.C. Yang, G.W. Zhou, “In situ UHV TEM studies of early-stage oxidation of Cu and Cu Alloy thin films”, Micron 43, 1195(2012)

77. R. S. Cai, T. Li, Y. Q. Wang, C. Wang, L. Yuan, G. W. Zhou, “Formation of modulated structures in single-crystalline hexagonal α-Fe2O3 nanowires”, Journal of Nanoparticle Research 14, 1073(2012)

78. D.P. Wang, I. Belharouak, S. Gallagher, G.W. Zhou, K. Amine, “Chemistry and Electrochemistry of Concentric Ring Cathode Materials for Lithium Batteries”, Journal of Materials Chemistry 22, 12039-12045 (2012)

79. F. Gao, K. Rajathurai, Q.Z. Cui, G.W. Zhou, I. NkengforAcha. Z.Y. Gu, “Flux effect on the melting and Ostwald ripening of Lead-free solder nanowires and nanorods on Si substrates”, Applied Surface Science 258, 7507-7514 (2012)

80. L.L. Luo, Y.H. Kang, J.C. Yang, G.W. Zhou. “Effect of Au composition on the orientations of oxide nuclei during the oxidation of Cu-Au alloys”, Journal of Applied Physics 111, 083533 (2012)

81. L. Li, M. Xi, Y.F. Shi, G.W. Zhou, “Precursor to the bulk oxide formation during the oxidation of Cu(100)”, Physical Review Letters 108, 176102 (2012)

82. L. Yuan, Q.K. Jiang, J.B. Wang, G.W. Zhou, “Selective growth of α-Fe2O3 nanobelts and nanowires via oxygen gas pressure during the oxidation of iron”, Journal of Materials Research 27(7), 1014-1021 (2012)

83. L. Yuan, G.W. Zhou, “Enhanced CuO nanowire formation by thermal oxidation of roughened copper”, Journal of the Electrochemical Society 159, C205-C209 (2012)

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84. L. Yuan, Y.Q. Wang, R.S. Cai, Q.K. Jiang, J.B. Wang, B.Q. Li, G.W. Zhou, “The origin of hematite nanowire growth during the thermal oxidation of iron”, Materials Science and Engineering B 177, 327-336 (2012)

85. N. Cai, G.W. Zhou, K. Müller, D.E. Starr, “Effect of oxygen gas pressure on the kinetics of alumina film growth during the oxidation of Al(111) at room temperature”, Physical Review B 84, 125445 (2011)

86. R. Mema, L. Yuan; Q.T. Du; Y.Q. Wang, G.W. Zhou, “Effect of surface stresses on CuO nanowire growth in the thermal oxidation of Copper”, Chemical Physics Letters 512, 87-91 (2011)

87. N. Cai, G.W. Zhou, K. Müller, D.E. Starr, “Tuning the limiting-thickness of a thin oxide layer on Al (111) with oxygen gas pressure”, Physical Review Letters 107, 035502 (2011)

88. D.P. Wang, I. Belharouak, G.M. Koenig, G.W. Zhou, K. Amine, “Growth mechanism of Ni0.3Mn0.7CO3 precursor for high capacity Li-ion battery cathodes”, Journal of Materials Chemistry 21, 9290-9295 (2011)

89. L.L. Luo, Y.H. Kang, Z.Y. Liu, J.C. Yang, G.W. Zhou, “Dependence of degree of orientation of copper oxide nuclei on oxygen pressure during initial stages of copper oxidation”, Physical Review B 83, 155418 (2011)

90. L. Yuan, Y.Q. Wang, R. Mema, G.W. Zhou, “The driving force and growth mechanism for spontaneous oxide nanowire formation during the thermal oxidation of metals”, Acta Materialia 59, 2491-2500 (2011)

91. M.J. Zhi, G.W. Zhou, J. Wang, R. Gemmen, A. Manivannan, N.Q. Wu, “Single crystalline La0.5Sr0.5MnO3 microcubes as cathode of solid oxide full cell”, Energy & Environmental Science 4, 139-144 (2011)

92. L. Li, G.W. Zhou, “3D kinetic Monte Carlo simulations of crater growth during the reduction of oxide nanoislands on metal surfaces”, Surface Science 605, 54-61 (2011)

93. L.L. Luo, Y.H. Kang, Z.Y. Liu, J.C. Yang, G.W. Zhou, “Effect of Oxygen Pressure on the Initial Oxidation Behavior of Cu and Cu-Au Alloys”, Advances in Spectroscopy and Imaging of Surfaces and Nanostructures, Materials Research Society Proceedings 318, 31-36 (2011)

94. G.W. Zhou, “Nucleation induced kinetic hindrance to the oxide formation during the initial oxidation of metal surfaces” Physical Review B 81, 195440 (2010)

95. C.H. Ke, M. Zheng, I.-T. Bae, G.W. Zhou, “Buckling of single-walled carbon nanotube bundles”, Journal of Applied Physics 107, 104305 (2010)

96. C.H. Ke, M. Zheng, G.W. Zhou, W. Cui, P. Nicola, R.N. Miles, “Mechanical peeling of free-standing single-walled carbon nanotube bundles”, Small 6, 438-445 (2010)

97. JC Yang, Y Kang, L Luo, C Fleck, M Lee, A McGaughey, JA Eastman and G.W. Zhou, “The surface kinetics of the initial oxidation stages of Cu and Cu alloys”, Microscopy and Microanalysis 16, 1406-1407 (2010)

98. G.W. Zhou, D.D. Fong, L. Wang, P.H. Puoss, P.M. Baldo, L.J. Thompson, J.A. Eastman, “Nanoscale duplex oxide growth during early stages of oxidation of Cu-Ni(100)”, Physical Review B 80, 134106 (2009)

99. G.W. Zhou, W.Y. Dai, J.C. Yang, “In situ UHV-TEM study of the reduction of Cu2O islands on Cu(100) surfaces”, Proc. Mater. Res. Soc. 1146, NN04-05 (2009)

100. G.W. Zhou, “TEM investigation of interfaces during cuprous island growth”, Acta Materialia 57, 4432 (2009)

101. G.W. Zhou, “Metal-oxide interfaces at the nanoscale”, Applied Physics Letters 94, 233115 (2009) Selected for Virtual Journal of Nanoscale Science & Technology in vol. 19, issue 25, June 2009 (http://www.vjnano.org). Among the 20 research articles with the most full-text downloads during the month (June, 2009)

102. G.W. Zhou, “Nucleation thermodynamics of oxide during metal oxidation”, Applied Physics Letters 94, 201905 (2009)

103. G.W. Zhou, “Stress-driven formation of terraced-hollow oxide nanorods during metal oxidation”, Journal of Applied Physics 105, 104302 (2009)

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104. G.W. Zhou, “TEM investigation of interfaces during Cu2O island growth”, Microscopy and Microanalysis 15, 998-999 (2009)

105. J.C. Yang, Z.Q. Li, L. Sun, G.W. Zhou, J.A. Eastman, D.D. Fong, P.H. Fuoss, P.M. Baldo, L.E. Rehn, L.J. Thompson, “Polycrystalline oxides formation during transient oxidation of (001)Cu-Ni binary alloys studied by in situ TEM and XRD, Materials at High Temperature 26 (1), 1-7 (2009)

106. G.W. Zhou, X.D. Chen, D. Gallagher, J.C. Yang, “Percolating oxide film growth during Cu(111) oxidation”, Applied Physics Letters 93, 123104 (2008)

107. G.W. Zhou, W. Dai, J.C. Yang, “Crater formation via hom*oepitaxy of adatoms dislodged from reducing oxide islands on metal surfaces”, Physical Review B 77, 245427 (2008)

108. H. Iddir, D.D. Fong, P. Zapol, P.H. Fuoss, L.A. Curtiss, G.W. Zhou, J.A. Eastman, “Order-disorder phase transition of the Cu(001) surface under equilibrium oxygen pressure”, Physical Review B 76 241404(R) (2007) (rapid communications)

109. G.W. Zhou, J.A. Eastman, R.C. Birtcher, P.M. Baldo, J.E. Pearson, L. Wang, J.C. Yang, “Effect of composition on the early-stage oxidation of Cu-Au alloys”, Journal of Applied Physics 101, 033521 (2007)

110. G.W. Zhou, L. Wang, R.C. Birtcher, P.M. Baldo, J.E. Pearson, J.C. Yang, J.A. Eastman, “Cu2O island shape transition during Cu-Au oxidation”, Physical Review Letters 96, 226108 (2006)

111. L. Wang, G.W. Zhou, J.A. Eastman, J.C. Yang, “Initial oxidation kinetics and energetics of Cu0.5Au0.5(001) film investigated by in-situ UHV-TEM”, Surface Science 600, 2372 (2006)

112. G.W. Zhou, J.A Eastman, R. Birtcher, P.M. Baldo, J.E Pearson, L. E. Thompson, L. Wang, J. C. Yang, "In situ TEM investigation of early-stage oxidation of (001)Cu-Au alloys", Microscopy and Microanalysis 12, 548-549 (2006).

113. J.A. Eastman, P.H. Fuoss, L.E. Rehn, P.M. Baldo, G.W. Zhou, D.D. Fong, L.J. Thompson, “Early-stage suppression of Cu(001) oxidation”, Applied Physics Letter 87, 051914 (2005)

114. J. Wu, G.R. Bai, J.A. Eastman, G.W. Zhou, V.K. Vasudevan, “Synthesis of TiO2 nanoparticles using chemical vapor condensation”, Proc. Mater. Res. Soc. 879E, Z7, 12.1 (2005)

115. G.W. Zhou, W.S. Slaughter, J.C. Yang, “Terraced hollow oxide pyramids”, Physical Review Letters 94, 246101(2005) Selected for Virtual Journal of Nanoscale Science & Technology in vol. 12, issue 1, July 2004 (http://www.vjnano.org).

116. G.W. Zhou, J.C. Yang, “Initial oxidation kinetics of Cu(100), (110), and (111) thin films investigated by in situ TEM”, Journal of Materials Research 20 (7), 1684-1694 (2005)

117. P.H. Fuoss, J.A. Eastman, L.E. Rehn, P. Baldo, G.W. Zhou, D.D. Fong, L. Thompson, “A controlled-atmosphere system for in situ materials processing at the APS”, APS Science 2004, 119-120 (2005)

118. G.W. Zhou, L. Wang, J.C. Yang, “Effect of surface topology on the formation of oxide islands on Cu surfaces”, Journal of Applied Physics 97, 063509(2005)

119. G.W. Zhou, J.C. Yang, “Reduction of Cu2O islands grown on a Cu(100) surface through vacuum annealing”, Physical Review Letters 93, 226101(2004). Selected for Virtual Journal of Nanoscale Science & Technology in vol. 10, issue 23, December 2004 (http://www.vjnano.org).

120. G.W. Zhou, J.C. Yang, “In situ UHV-TEM investigation of the kinetics of initial stages of oxidation on roughened Cu(110) surface”, Surface Science 559/2-3, 100-110 (2004)

121. G.W. Zhou, J.C. Yang, “Temperature effects on the growth of oxide islands on Cu(110) surface investigated by in situ UHV-TEM”, Applied Surface Science 222, 357-364 (2004)

122. G.W. Zhou, J.C. Yang, “Nano-oxidation of Cu(100) investigated by in situ UHV-TEM”, Materials Science Forum Vols. 461-464, 183-192 (2004)

123. J.C. Yang, G.W. Zhou, “The surface oxidation kinetics of Cu(100) and Cu(110) thin films visualized by in situ UHV-TEM”, Journal of Corrosion Science and Engineering 6, 96(2003)

124. G.W. Zhou, J. C. Yang, “Initial oxidation kinetics of copper (110) film investigated by in situ UHV-TEM”, Surface Science 531/3, 359 (2003)

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125. G.W. Zhou, J. C. Yang, “Temperature effect on the morphology of Cu2O oxide islands created by oxidation of Cu(100)”, Applied Surface Science 210/3-4, 165 (2003)

126. G.W. Zhou, J. C. Yang, “Self-assembly of metal-oxide structures: oxidation of Cu films by In-situ UHV-TEM”, Materials at High Temperatures 20 (3), 247(2003)

127. G.W. Zhou, J. C. Yang, “Dramatic effect of temperature on metal-oxide nanostructures: oxidation of Cu films by in situ UHV-TEM”, Proc. Mater. Res. Soc. 739, H7.29.1 (2003)

128. G.W. Zhou, J. C. Yang, F.T. Xu, J. A. Barnard, Z. Zhang, “Quantitative V-L-S growth model and experiments of Fe catalyzed Si nanowire formation”, Proc. Mater. Res. Soc.737, F.6.3.1 (2003).

129. G.W. Zhou, J. C. Yang, “The formation of quasi-one-dimensional Cu2O structures by in-situ oxidation of Cu(100)”, Physical Review Letters 89, 106101(2002)

130. X.D. Chen, J. Sullivan, C. Barhour, C. Johnson, G.W. Zhou, J.C. Yang, “Fluctuation microscopy studies of aluminum oxides exposed to Cl ions”, Proc. Mater. Res. Soc. 738, G. 1.4.1 (2003)

131. G.W. Zhou, J. C. Yang, "Initial oxidation kinetics of copper films investigated by in situ UHV-TEM", Microscopy and Microanalysis 8, 1406-1407 (2002)

132. G.W. Zhou, M. Bharadwaj, J. C. Yang, "Initial oxidation kinetics of copper (110) thin films as investigated by in situ UHV-TEM", Microscopy and Microanalysis 7, 1274-1275 (2001)

133. J.C. Yang, M.D. Bharadwaj, G.W. Zhou, L. Tropi, “Surface kinetics of copper oxidation investigated by in-situ UHV-TEM”, Microscopy and Microanalysis 7, 486 (2001)

134. A. Kuznetsova, J.T. Yates, G.W. Zhou, J.C. Yang, X. Chen, “Making a superior oxide corrosion passivation layer on aluminum using ozone”, Langmuir 17, 2146(2001)

135. A. Kuznetsova, I, Popova, V. Zhukov, J.T. Yates, Jr., G.W. Zhou, J.C. Yang, X. Chen, “Making superior corrosion resistant aluminum oxide films using ozone- electrochemical and electron microscopy studies”, Journal of Vacuum Science and Technology A 19(4), 1971(2001)

136. R.P. Wang, G.W. Zhou, Y.L. Liu, D.P. Yu, Z. Zhang, "Raman spectral studies of Silicon nanowires: High-order scattering and size confinement effect", Physical Review B 61, 16827(2000)

137. G.W. Zhou, A. Kuznetsova, M. Bharadwaj, J. T. Yates, J. C. Yang, "The Improved Passivation of Aluminum and Structure of Amorphous Alumina Formed on Aluminum During Oxidation in Various Environments", Microscopy and Microanalysis 6, 38-39 (2000).

138. H. Li, X.J. Huang, L.Q. Chen, G.W. Zhou, Z. Zhang, D.P. Yu, Y.J. Mo, N. Pei "The structural evolution of nano Si anode caused by Li insertion and extraction at room temperature", Solid State Ionics 135, 181 (2000)

139. H. Chen, R. B. Huang, Z. C. Tang, L. S. Zheng, G.W. Zhou, Z. Zhang, “Single Ti crystals encapsulated in carbon nanocages obtained by laser vaporization of sponge Ti in benzene vapor”, Applied Physics Letters 77, 91(2000)

140. G.W. Zhou, H. Li, H.P. Sun, D.P. Yu, Y.Q. Wang, Z. Zhang, "Controlled Li doping of Si nanowires by electrochemical insertion method", Applied Physics Letters 75, 2447 (1999)

141. G.W. Zhou, Z. Zhang, D.P. Yu, "Growth morphology and micro-structural aspects of Silicon nanowires synthesized by laser ablation", Journal of Crystal Growth 197, 129 (1999)

142. G.W. Zhou, Z. Zhang, Z.G. Bai, D.P. Yu, "Catalyst effect on the formation of boron nitride nano-tubules", Solid State Communications 109, 555 (1999)

143. G.W. Zhou, Z. Zhang, D.P. Yu, "Synthesis and micro-structure of one-dimensional nano-structures", Science in China A 42, 429 (1999)

144. R.P. Wang, S.H. Pan, Y.L. Zhou, G.W. Zhou, K. Xie, H.B. Lu, N.N. Liu, "Fabrication of CeO film on Si(100) substrates by laser deposition", Journal of Crystal Growth 200, 505 (1999)

145. G.W. Zhou, B.Y. Hua, S.L. Jiang, "The calculation of force constant model for the vibration spectra of C60", Journal of Beijing University of Technology 23, 20 (1997)

146. R.P. Wang, Y.L. Zhou, S.H. Pan, H.H. Wang, G.Z. Yang, G.W. Zhou, Z. Zhang, "Structural characteristics of PrBa2Cu3O7 thin film grown by pulsed laser deposition", Journal of Crystal Growth 204, 293(1999)

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147. G.W. Zhou, Z. Zhang, D.P. Yu, "Microstructure and growth mechanism of Si nanowires", Journal of Chinese Electron Microscopy 17, 487 (1998)

148. D.P. Yu, C.S. Lee, I. Bello, G.W. Zhou, Z.G. Bai, Z. Zhang, "Synthesis of nano-scale silicon wires by excimer laser ablation at high temperature", Solid State Communications 105, 403 (1998)

149. G.W. Zhou, Z. Zhang, Z.G. Bai, S.Q. Feng, D.P. Yu, "Transmission electron microscopy study of Si nano-wires synthesized by laser ablation", Applied Physics Letters 73, 677 (1998)

150. D.P. Yu, X.S. Sun, C.S. Lee, I. Bello, C.S. Tee, G.W. Zhou, Z.F. Dong, Z. Zhang, "Synthesis of BN nanotubes by excimer laser ablation at high temperature", Applied Physics Letters 72, 1966 (1998)

Invited Seminars

1. Dalian Institute of Chemical Physics, In situ atomic-scale visualization of oxidation of metals (07/2016)

2. National Institute of Standards and Technology (NIST), In-situ microscopy and spectroscopy study of the oxidation of metals and alloys (02/2014)

3. Chemistry, Physics and Engineering Department, Biola University, In situ atomic-scale observations of the oxidation of metals (10/2013)

4. Center for Functional Materials, Brookhaven National Laboratory, "In-situ microscopy and spectroscopy study of the oxidation of metals and alloys" (09/2013)

5. Lawrence Berkeley National Laboratory, “In situ visualization and theoretical modeling of the early-stage oxidation of metals” (06/2013)

6. Pacific Northwest National Laboratory, "In situ visualization and theoretical modeling of the early-stage oxidation of metals” (06/2013)

7. Physics Department, Binghamton University, In situ visualization and theoretical modeling of the early-stage oxidation of metals” (05/2013)

8. Materials Science & Engineering, Rensselaer Polytechnic Institute, “Atomistic study of the initial oxidation of metals and alloys” (10/2012)

9. Xiangtan University, “In situ visualization and theoretical modeling of the early-stage oxidation of metals” (06/2012)

10. Qingdao University, “Coordinated experimental and theoretical study of the early stages of oxidation of metals” (06/12)

11. The Integrated Electronics Engineering Center (IEEC), Technical Advisory Boards meeting, “In situ study of the stability of materials under harsh environments” (03/2012)

12. Mechanical Engineering Department, University of Massachusetts at Amherst, “In situ TEM study of nanoscale oxidation of metals and alloys” (04/2011)

13. Materials Science and Engineering, Pennsylvania State University, “Dynamic in situ TEM Visualization of Nanoscale Oxidation of Metals and Alloys” (03/2011)

14. Peking University, “Nanoscale oxidation of metals and alloys” (07/2010) 15. Wuhan University, “In situ study of early-stage oxidation of metal surfaces” (06/2010) 16. University of Massachusetts at Lowell, “In situ study of nanoscale oxidation of metals (12/2009) 17. Argonne National Laboratory, “In situ TEM visualization of nanoscale oxidation of metals and

alloys’ (05/2009) 18. Physics colloquium, Binghamton University, “Dynamic in-situ studies of surface oxidation of

metals” (02/2008) 19. University of Louisville, “Understanding nanoscale surface oxidation via real time electron

microscopy and x-ray scattering” (03/2006) 20. University of Connecticut, “In-situ studies of nanoscale surface oxidation” (06/2006) 21. Argonne National Laboratory, “Dynamics of Cu oxidation investigated by in situ TEM” (05/2003)

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Invited and Contributed Conference Presentations 1. G.W. Zhou, “In-situ operando electron microscopy study of lithium ion batteries”, Microscopy

and Microanalysis, St. Louis, MO, Aug., 2017 (invited) 2. G.W. Zhou, “Oxidation driven surface dynamics on NiAl(100)”, Northeast Regional Meeting,

American Chemical Society, Binghamton, NY, Oct., 2016 (invited) 3. G.W. Zhou, “Catalytically active phase of methanol oxidation over Cu-based catalysts”, 252nd

American Chemical Society National Meeting & Exposition, Philadelphia, PA, Aug., 2016 (invited)

4. K. Karki, Y. Huang, S. Whittingham, E. Stach, F. Wang, G.W. Zhou, “In-situ studies of advanced battery materials”, 25th International Materials Research Congress, Cancun, Mexicon, Aug. 2016 (invited)

5. W.H. Zhu, J.P. Winterstein, R. Sharma, G.W. Zhou, “In situ Atomic-Scale Visualization of CuO Nanowire Growth”, Microscopy and Microanalysis, Columbus, OH, Aug., 2016

6. K. Karki, Y. Huang, S. Whittingham, E. Stach, G.W. Zhou, “ETEM Study of Oxygen Activity in LiNi0.8Co0.15Al0.05O2 (NCA) Cathode Materials at Various States of Charge”, Microscopy and Microanalysis, Columbus, OH, Aug., 2016

7. W.H. Zhu, J.P. Winterstein, R. Sharma, G.W. Zhou, “In situ Atomic-Scale Visualization of CuO Nanowire Growth”, Microscopy and Microanalysis, Columbus, OH, Aug., 2016

8. W.H. Zhu, J.P. Winterstein, R. Sharma, G.W. Zhou, “Initial stages of Reduction of α-Fe2O3 Nanoblades”, Microscopy and Microanalysis, Columbus, OH, Aug., 2016

9. W.H. Zhu, J.P. Winterstein, R. Sharma, G.W. Zhou, “The Growth of Catalyst-free NiO Nanowires”, Microscopy and Microanalysis, Columbus, OH, Aug., 2016

10. G.W. Zhou, "In-situ atomic-scale visualization of the oxidation of metals and alloys", Department of Energy, Synthesis and Processing Science Program Meeting, Gaithersburg, MD, Nov., 2015 (invited)

11. G.W. Zhou, "Dynamic in-situ atomic-scale imaging of the oxidation of metals", Microscopy and Microanalysis, Portland, OR, Sept., 2015 (invited)

12. G.W. Zhou, "In-situ atomic-scale visualization of the oxidation of metals", International workshop on materials behavior at the nanoscale and microscale", Xi'an, June, 2015 (invited)

13. W.H. Zhu, J.P. Winterstein, R. Sharma, G.W. Zhou, "Atomic-Scale Characterization of the Reduction of a-Fe2O3 Nanowires", Microscopy and Microanalysis, Portland, OR, Sept., 2015

14. Q.Y. Yin, F. Gao, Z.Y. Gu, E.A. Stach, G.W. Zhou, "In Situ Visualization of Metallurgical Reactions in Nanoscale Cu/Sn Diffusion Couples", Microscopy and Microanalysis, Portland, OR, Sept., 2015

15. H.L. Qin, X.D. Chen, P. Sutter, G.W. Zhou, "In-situ imaging of the interaction of oxide film growth with surface steps on NiAl(100)", American Vacuum Society, 61th Annual International Symposium and Exhibition”, Baltimore, MD, Nov., 2014

16. Q.Q. Liu, X. Tong, G.W. Zhou, "XPS study of the dissociation of water vapor on pre-oxidized Al(111) and Cu(111) surfaces", American Vacuum Society, 61th Annual International Symposium and Exhibition”, Baltimore, MD, Nov. 2014

17. L. Li, L.L. Luo, J. Ciston, W.A. Saidi, E.A. Stach, J.C. Yang, G.W. Zhou, "Surface-step-induced oscillatory oxide growth", Materials Research Society, Boston, MA, Dec. 2014

18. W.H. Zhu, Q.Y. Yin, L. Yuan, G.W. Zhou, "In-situ TEM study of the reduction of nanostructured iron oxides", Materials Research Society, Boston, MA, Dec. 2014

19. L. Li, W.A. Saidi, G.W. Zhou, "Density Functional and Kinetic Monte Carlo Studies of Chemisorptions-Induced Surface Phase Transitions on Cu(110)", Materials Research Society, Boston, MA, Dec. 2013

20. Q.Y. Yin, F. Gao, Z.Y. Gu, G.W. Zhou, "Solderability of lead-free nano joints on Tin-Copper nanowires", Materials Research Society, Boston, MA, Dec. 2013

page 14

21. L. Yuan, R.S. Cai, J.I. Jang, W.H. Zhu, C. Wang, Y.Q. Wang, G.W. Zhou. "Morphological Transformation of Hematite Nanostructures by Sandblasting", Materials Research Society, Boston, MA, Dec. 2013

22. F. Gao, Q.Y. Yin, G.W. Zhou, Z.Y. Gu, "Advanced Multifunctional Nanowires for Nanoelectronics Assembly and Nano-Soldering", Materials Research Society, Boston, MA, Dec. 2013

23. H.L. Qin, P. Sutter, G.W. Zhou, "The Oxide Structure and Growth Dynamics of NiAl(100) Studied with Scanning Tunneling Microscopy and Low Energy Electron Microscopy", Materials Research Society, Boston, MA, Dec. 2013

24. G.W. Zhou, "In-situ atomic-scale observations of the oxidation of metals", American Vacuum Society, 60th Annual International Symposium and Exhibition”, Long Beach, CA, Oct. 2013 (invited)

25. N. Cai, G.W. Zhou, K. Muller, D.E. Starr, “Temperature and pressure dependent Mott potentials and their influence on self-limiting oxide film growth”, Materials Research Society, Boston, MA, Dec. 2012

26. L Yuan, G.W. Zhou, “The growth of Oxide Nanostructures by Thermal Oxidation of Metals”, Materials Research Society, Boston, MA, Dec. 2012

27. L.L Luo, Y.H. Kang, J.C. Yang, G.W. Zhou, “In situ UHV TEM Study of Early Stages Oxidation of Cu-Pt Alloy”, Materials Research Society, Boston, MA, Dec. 2012

28. L. Li, N. Cai, W.A. Al-Saidi, G.W. Zhou, “Computational studies of chemisorptions-induced surface phase transitions on Cu(110)”, Materials Research Society, Boston, MA, Dec. 2012

29. Q.Q. Liu, L. Li, G.W. Zhou, “Investigation of the reduction of copper oxide by in-situ UHV-scanning tunneling microscopy”, Materials Research Society, Boston, MA, Dec. 2012

30. M. Gu, I. Belharouak, A. Genc, Z.G. Wang, D.P. Wang, K. Amine, F. Gao, G.W. Zhou, S. Thevuthasan, J.-G. Zhang, N.D. Browning, J. Liu, C.M. Wang, Structure, Cation Segregation and Phase Transformation of Layered Li1.2Ni0.2Mn0.6O2 Cathode in Li-ion Batteries, Materials Research Society, Boston, MA, Dec. 2012

31. L.L. Luo, L. Li, J. Ciston, E.A. Stach, J.C. Yang, G.W. Zhou, “Atomic-scale visualization of the oxidation of Cu surfaces via in situ environmental TEM”, Microscopy and Microanalysis Meeting, Phoenix, AZ, July 2012.

32. I. Belharouak, D. Wang, G.W. Zhou, and K. Amine, “Concentric Ring Architected Cathode Materials for Lithium Batteries", 221st Electrochemical Chemistry Society, Seattle, May 2012

33. J.C. Yang, Y.H. Kang, L.L. Luo, J. Ciston, E. Stach, G.W. Zhou, “TEM Studies of the Initial Oxidation stage of Cu and Cu Alloy Thin Films”, American Physical Society March Meeting, Boston, MA, 2012

34. G.W. Zhou, “In situ atomic visualization of the oxidation of metals”, Department of Energy Investigators meeting, Washington DC, Sept., 2011 (invited)

35. D. Wang, I. Belharouak, G. Koenig Jr., G.W. Zhou, and K. Amine, “Growth Mechanism of Ni0.3Mn0.7CO3 Precursor with Continuous Stirred Tank Reactor (CSTR) for High Capacity Cathodes”, 220th Electrochemical Chemistry Society Boston, MA, Oct., 2011

36. D. Wang, I. Belharouak, G.W. Zhou, K. Amine, “Cationic Ratio Effects on the Performance of Mn-Enriched Cathode Materials”, Materials Research Society, Boston, MA, Dec. 2011

37. Na Cai, G.W. Zhou, K. Muller, D.E. Starr, “Tuning the limiting-thickness of a thin oxide layer on Al (111) with oxygen gas pressure”, Materials Research Society, Boston, MA, Dec. 2011

38. L Yuan, G.W. Zhou, “Driving force and growth mechanism for spontaneous oxide nanowire formation during the oxidation of metals”, Materials Research Society, Boston, MA, Dec. 2011

39. L. Liang, M. Xi, Y.F. Shi, G.W. Zhou, “Precursor to the bulk oxide formation during the oxidation of Cu(100)”, Materials Research Society, Boston, MA, Dec. 2011

40. L.L Luo, Y.H. Kang, Z.Y. Liu, J.C. Yang, G.W. Zhou, “Self-assembly of oxide nanostructures via controlled nanoscale oxidation of metals”, Materials Research Society, Boston, MA, Dec. 2011

page 15

41. D.P. Wang, I. Belharouak, G.M. Koenig, G.W. Zhou, K. Amine, “Growth mechanism of Ni0.3Mn0.7CO3 precursor for high capacity Li-ion battery cathodes”, Materials Research Society, Boston, MA, Dec. 2011

42. Na Cai, G.W. Zhou, K. Muller, D.E. Starr, “Tuning the limiting-thickness of a thin oxide layer on Al (111) with oxygen gas pressure”, Gordon Conference – High temperature corrosion, Colby-Sawyer College. NH, July 24-29, 2011

43. JC Yang, Y Kang, L Luo, C Fleck, M Lee, A McGaughey, JA Eastman , G.W. Zhou, “The surface kinetics of the initial oxidation stages of Cu and Cu alloys”, Microscopy and Microanalysis Meeting, Portland, Oregon, Aug. 2010 (Invited)

44. Langli Luo, Yihong Kang, Zhenyu Liu, Judith C. Yang and Guangwen Zhou, “Effect of oxygen pressure on the initial oxidation behavior of Cu and Cu-Au alloys”, Materials Research Society, Boston, MA, Dec. 2010.

45. Yihong Kang, Langli Luo, Matthew France, Guangwen Zhou, and Judith C. Yang, “In-situ studies of the initial stage of Cu-Ni alloy oxidation”, Materials Research Society, Boston, MA, Dec. 2010.

46. G.W. Zhou, “Metal-oxide interface at the nanoscale”, Materials Research Society, Boston, MA, Dec. 2009.

47. G.W. Zhou, “TEM study of interfaces during Cu2O island growth”, Microscopy and Microanalysis Meeting, Richmond, VA, July 2009.

48. G.W. Zhou, C.H. Ke, J.C. Yang, J.H. Pearson, J.A. Eastman, “Stress development and relaxation during early stages of oxidation of metals and alloys”, American Physical Society March Meeting, Pittsburgh, PA, 2009

49. S. Ziemack, L. Sun, J.C. Yang, J.A. Eastman, G.W. Zhou, “The surface dynamics of the initial oxidation behavior of CuNi alloys”, American Physical Society March Meeting, Pittsburgh, 2009

50. G.W. Zhou, W.Y. Dai, J.C. Yang, “Reduction of Oxide islands on metal surfaces’, Fall’08 Materials Research Society, Boston, Dec. 2008

51. G.W. Zhou, W.Y. Dai, J.C. Yang, “In situ TEM investigation of reduction of oxide islands on Cu(100) surfaces’, Materials Science & Technology Meeting, Pittsburgh, 2008

52. G.W. Zhou, Xidong Chen, Judith C. Yang, "Fractal aspects related to the oxidation of Cu(111)", Materials Research Society Symposium, Fall meeting, Boston, 2007

53. G.W. Zhou, Judith C Yang, Jeffery A Eastman, John E Pearson, "Thermodynamic selection of nanoscale morphology of oxide islands investigated by in-situ UHV-TEM", Materials Research Society Symposium, Fall meeting, Boston, 2007

54. G.W. Zhou, J.A. Eastman, R.C. Birtcher, P. M. Baldo, J.E. Pearson, L.J. Thompson, L. Wang, J.C. Yang, “In-situ TEM investigation of nanoscale oxidation of (001)Cu-Au alloys”, Microscopy and Microanalysis ’06, Chicago, IL, August, 2006

55. G.W. Zhou, D.D. Fong, P. Baldo, J.E. Pearson, L.J. Thompson, J.A. Eastman, “Anomalous scaling of Cu surfaces under oxidation”, Materials Research Society, Boston, MA, December 2005

56. D.D. Fong, J.A. Eastman, P.H. Fuoss, G.W. Zhou, P.M. Baldo, L.J. Thompson, “In situ synchrotron x-ray studies of CO oxidation by Au/TiO2”, Fall ’05 Materials Research Society, Boston, MA, December 2005

57. G.W. Zhou, “In situ TEM investigation of early-stages of metal oxidation”, Spring’05 Materials Research Society, San Francisco, CA, April 2005 (invited)

58. D.D. Fong, G.W. Zhou, P.H. Fuoss, P.M. Baldo L.J. Thompson, L.E. Rehn, and J.A. Eastman, “In Situ Synchrotron X-Ray Studies of Cu(001) Oxidation”, Dynamics of surface and interface processes workshop, Argonne, August, 2005 (invited)

59. J.A. Eastman, D.D. Fong, P.H. Fuoss, P.M. Baldo, L.J. Thompson, G.W. Zhou, L.E. Rehn, “In-situ synchrotron X-ray studies of nanostructured heterogeneous catalysts for energy and environmental applications”, ECI conference,” September 2005, Castelvecchio Pascoli, Italy

60. P. H. Fuoss, J.A. Eastman, G.W. Zhou, L.E. Rehn, P.M. Baldo, L.J. Thompson, D.D. Fong, “In-situ studies of the oxidation of strained, coherent Cu(100) films”, Spring’05 Materials Research Society, San Francisco, CA, April 2005 (invited)

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61. L. Wang, G.W. Zhou, J.A. Eastman, J.C. Yang, “Energetics and kinetics of Cu-Au alloy oxidation studied by in-situ UHV-TEM”, Materials Research Society, San Francisco, CA, April 2005

62. J.C. Yang, GW. Zhou, L. Wang, J.A. Eastman, “The initial oxidation mechanisms of Cu and Cu-Au by in-situ TEM”, American Physical Society, March Meeting, Indianapolis, Los Angles, CA, 2005.

63. D.D Fong, J.A. Eastman, P.H. Fuoss, G.W. Zhou, L.E. Rehn, P.M. Baldo, and L.J. Thompson, “In-situ studies of reversible hydriding in palladium thin films”, Spring’05 Materials Research Society, San Francisco, CA, April 2005

64. G.W. Zhou, L. Wang, J. C. Yang, P. Baldo, J.E. Pearson, J.A. Eastman, “Dendritc oxide growth via surface oxidation”, Fall ’04 Materials Research Society, Boston, MA, December, 2004.

65. J.A. Eastman, P.H. Fuoss, G.W. Zhou, L.E. Rehn, P.M. Baldo, L.J. Thompson, D.D. Fong, “In-situ studies of Cu2O nano-island formation on Cu(001)”, Fall’04 Materials Research Society, Boston, MA, December 2004

66. G.W. Zhou, J. C. Yang, “Surface Modifications by Nano-oxidation”, Fall’03 Materials Research Society Symposium, Boston, MA, December, 2003.

67. G.W. Zhou, J. C. Yang, " Surface Modifications: Reduction of oxide islands on metal surfaces investigated by In situ TEM", Microscopy and Microanalysis’03, San Antonia, TX, August, 2003.

68. G.W. Zhou, J. C. Yang, “Initial oxidation of Cu(110) film investigated by in situ UHV-TEM”, Spring’03 Materials Research Society Symposium, San Francisco, CA, April, 2003 (invited).

69. G.W. Zhou, J. C. Yang, “Nano-oxidation of Cu film investigated by in situ UHV-TEM”, American Physical Society, March Meeting, Austin, TX, 2003

70. G.W. Zhou, J. C. Yang, “Quantitative V-L-S growth model and experiments of Fe catalyzed Si nanowire formation”, Fall ’02 Materials Research Society, Boston, MA, December, 2002.

71. G.W. Zhou, J. C. Yang, "Initial oxidation kinetics of copper thin films as investigated by in situ UHV-TEM", Microscopy and Microanalysis ’02, Quebec, Canada, August, 2002.

72. G.W. Zhou, J. C. Yang, “Quasi-one dimensional nanostructures of Cu2O on Cu(100)”, American Physical Society, March Meeting, Indianapolis, IN, 2002.

73. G.W. Zhou, J. C. Yang, “The formation of assembled Cu2O nanostructures investigated by in situ UHV-TEM”, Fall ’01 Materials Research Society Symposium, Boston, MA, December, 2001

74. G.W. Zhou, M. Bharadwaj, J. C. Yang, "Initial oxidation kinetics of Copper(110) thin films as investigated by in situ UHV-TEM", Microscopy and Microanalysis, Long Beach, CA, Aug., 2001

75. G.W. Zhou, J. C. Yang, “Initial oxidation stages of Cu as investigated by in-situ UHV-TEM”, Spring ‘01 Materials Research Society Symposium, San Francisco, CA, April, 2001.

76. G.W. Zhou, J. C. Yang, “The improved passivation of aluminum and structure of amorphous alumina formed on aluminum during oxidation in various environments”, Microscopy and Microanalysis’00, Philadelphia, PA, August, 2000.

Teaching

Undergraduate-level courses Materials Science (Fall 2017) Thermodynamics (Fall 2009, 2010, 2011, 2012, 2013) Materials Selection in Engineering Design (Spring 2015, 2016) Graduate-level courses Transmission Electron Microscopy (Spring 2008, 2009, 2010, 2011, 2012, 2013, 2016) Crystallography and Diffraction (Fall 2008, 2009, 2010, 2011, 2012, 2013, 2015, 2016) Special Topics in Nanoscience and Nanotechnology (Fall 2007)

Advising Visiting Scholar

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Canying Cai (Jan. 2014 - Dec. 2015), Department of Physics, Xiangtan University Post-doctoral Advising

Dongdong Xiao (2017 – present): In-situ liquid cell TEM of battery materials Khim Karki (2014 – present): In-situ TEM study of battery materials Hailang Qin (2012 – 2014): SPM study of the early-stage oxidation of NiAl alloys Congkang Xu (2009 – 2010): Methanol oxidation over copper containing catalysts

Graduate Advising Current Graduate Students Kuo Liu, MS student, 2016 – present Zhilu Liang, PhD student, 2017 – present Xianhu Sun, PhD student, 2017 – present Xiaobo Chen, PhD student, 2017 – present Jianyu Wang, PhD student, 2017 – present Hanlei Zhang, PhD student, 2015 – present Chaoran Li, PhD student, 2014 – present Dongxiang Wu, PhD student, 2014 – present Peng Mu, PhD student, 2013 – present Lianfeng Zou, PhD student, 2012 – present Qiyue Yin, PhD student, 2012 – present Jonathan Li, PhD student, 2012 – present Qianqian Liu, PhD student, 2011 – present Yaguang Zhu, PhD student, 2016 – present Defended PhD theses: Lianfeng Zou, 09/2012 – 05/2017 (present employer: Pacific Northwest National Laboratory) PhD thesis: Atomistic study of the surface and interface dynamics Qiyue Yin, 09/2012 – 07/2017 (present employer: EAG Laboratories) PhD thesis: Fundamental properties of nanoscale Cu/Sn diffusion couples

Wenhui Zhu, 09/2012 – 12/2016 (present employer: Ford Motor) PhD thesis: In-situ atomic-scale probing of the oxidation of metals and reduction of metal oxides Qianqian Liu, 09/2011 – 12/1026 PhD thesis: SPM study of surface oxidation of Cu and Al

Liang Li, 09/2009 – 05/2015 (present employer: Argonne National Laboratory) PhD thesis: Atomistic modeling of the oxidation of Cu surfaces Lu Yuan, 09/2009 – 04/2014 (present employer: Globalfoundries) PhD thesis: The growth of one-dimensional oxide nanostructures by thermal oxidation of metals Langli Luo, 09/2008 –11/2012 (present employer: Pacific Northwestern National Laboratory) PhD Thesis: Morphological and kinetic study of the initial-stage oxidation of copper and copper alloys by in-situ TEM Dapeng Wang, 01/2008 – 05/2012 (present employer: Apple)

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PhD Thesis: Li- and Mn- rich composite cathode materials for lithium ion batteries Na Cai, 09/2008 – 07/2012 (present employer: Globalfoundries) PhD Thesis: Oxidation of Al and Cu: from oxygen surface chemisorption to the growth of continuous oxide films Defended MS theses: Weitao Shan, 09/2014 – 06/2016 MS Thesis: Theoretical study of hydrogen-induced atomic structure evolution of the oxygen-chemisorbed Cu(110) surface Dongxiang Wu, 09/2014 – 06/2016 MS Thesis: DFT study of oxygen adsorption at domain boundaries formed by the oxygen chemisorption induced surface phase transition on Cu(110) Daizhao Li, 09/2011-08/2013 MS Thesis: Density-functional theory investigation of oxygen chemisorption on stepped copper surfaces Ming-Young Jang, 09/2012-08/2013 MS Thesis: Electron microscopy study of the corrosion of prestressing strands Yanchang Li, 09/2010 –07/2012 Thesis: Effect of partial oxidation of methanol on surface morphology and structure of copper based nano-catalysts Rediola Mema, 09/2009-05/2011 MS Thesis: Effect of surface stress and morphology modification on cupric oxide nnaowire growth in the thermal oxidation of Cu Ph.D. thesis committees

Jong Hyun Shim (2013 -): Development of ceramic thin-films by low temperature solution processing Abhishek Nandur (2012 -): CZTS solar absorber by Pulsed laser deposition Bohua Wen (2012-2014 ): Molybdenum phosphate cathode materials for lithium-ion batteries Siyuan Ma (2011 - 2015): Low temperature plasma sintering Ag nanoparticles Jin Fang (2011 - present): LiFePO4 electrode material for lithium ion battery Zhaoyong Sun, PhD (2010): Synthesis and self-assembly of In2O3-based nanocrystals Ruigang Zhang, PhD (2011): Synthesis and characterization of novel electrode materials for lithium ion batteries Zheng Li, Ph.D (2011): Layered oxides (Li1+x M1-xO2 (M = Ni, Mn, Co, Al) as cathode materials for rechargeable lithium ion batteries Hui Zhou, PhD (2012): Pyrophosphates novel cathode materials for lithium batteries Liwei Huang, PhD (2012): Sintering metal nanoparticles films Harry Schoeller, PhD (2011): High temperature mechanical behavior of Pb and Sn solder alloys Undergraduate Advising 2015 - 2016 Capstone Design: Battery powered go-kart

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John M Stefanidis (ME), William Robert Paulson (ME), Antony Walton Haines (ME), Chase Thomas Bouchard (EE), Ben A Barone (EE)

2013 - 2014 Capstone Design: Designing and building a gas handling system for dosing mixed gases in ultra-high vacuum chambers with controllable partial pressures Dylan Nacht (ME), Logan Nelsen (ME), Michael Bronson (EE), Wenhao Liu (EE) 2012 - 2013 Capstone Design: Design a non-magnetic heater support for an STM sample holder and an electrochemical tip etching system Kevin A Gorman (ME), Chris H Maiorana (ME), Aaron Stewart (ME) 2011 - 2012 Capstone Design: ASME Student Design Competition: Energy Relay Swastisharan Dey (ME), João Trevisan (ME), Brittney Kovary (ME), Sean Rask (ME) 2010 - 2011 Capstone Design: Educational Product to Introduce Engineering to K-12 Project Megan D. Kloner (ME), Andrew S. Vargason (ME), Alex Concepcion (ME), Stephen Avondolio (ME), Cody Conden, Joji George (ME) 2009 - 2010 Capstone Design: Design a small stress device Maura Cahill (ME), Glenn Rosner (ME), Yoshikuni Hasegawa (ME) Capstone Design: Development of a virtual transmission electron microscope Emel Yildiz (Computer Science) 2008 - 2009 Capstone Design: Copper crystal stress mechanism Frank Roehrl (ME), Rediola Mema (ME) 2008 - 2009 Capstone Design: Development of a virtual Transmission Electron Microscope Ezgi Gozen (Computer Science), Duygu Uygur (Computer Science)

Professional Activities • Brookhaven National Laboratory, Center for Functional Materials, user proposal review committee

(2013-2018) • Co-editor, Advances in Spectroscopy and Imaging of Surfaces and Nanostructures, Materials

Research Society Proceedings, Volume 318, 2011 (Cambridge University Press) • Conference Organization:

“In Situ Electron Microscopy in gases and liquids” symposium (co-organizers: Libor Kovarik, Raymond R Unocic), Microscopy and Microanalysis, August, 2017 “Advanced Imaging Techniques for In-Situ studies” symposium (co-organizers: Renu Sharma, Jing Tao, Daniel Bahena Uribe), XXV International Materials Research Congress (IMRC) 2016 (Cancun, Mexico) “In situ Microscopy Focus Topic” symposium (co-organizers: John Cumings, Judith C Yang, Alan McGaughey), American Vacuum Society (AVS) 58th Annual International Symposium and Exhibition”, Nov. 2011 (Nashville, Tennessee) “Advanced Imaging and Scattering Techniques for in situ Studies” symposium (co-organizers: John Cumings, Dillon Fong, Jianyu Huang), Materials Research Society Meeting, Fall 2010 (Boston)

• Symposium chairs: Materials Science &Technology Conference 2008 “Electron Microscopy and Electron Diffraction: Development and Applications” “Interfaces and Defects in Functional Oxides”

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American Vacuum Society (AVS) 59th Annual International Symposium and Exhibition”, Nov. 2013 (Long Beach, CA) "In situ electron microscopy and spectroscopy"

• National Effective Teaching Institute (NETI) workshop (Austin, TX, June 2009) • Proposal review panels, National Science Foundation; Basic Energy Science, Department of Energy

(regular proposals and proposals for DOE Early-Career Research Program) • Editorial board: International Journal of Nano Science, Nano Engineering and Nanotechnology • Journal reviewer:

Nature Communications; Physical Review Letters; Nano Letters; Physical Review B; ACS Nano; Journal of the American Chemical Society; Scientific Report; Nanoscale; Applied Physics Letters; Surface Science; Journal of Applied Physics; Chemical Physical Letters; Journal of Chemical Physics; Physical Chemistry Chemical Physics; Philosophical Magazine B; Journal of Materials Research; Applied Surface Science; Journal of Nanoparticle Research; Crystal Growth and Design; Materials Science & Engineering; Journal of Crystal Growth; Thin Solid Films; Physica Status Solidi; Journal of Electronic Materials; Materials Letters; Carbon; Surface and Coating Technology; Journal of Materials Science; Oxidation of Metals; Materials Chemistry and Physics; ACS Applied Materials & Interfaces; Journal of Physical Chemistry C; Journal of Adhesion Science and Technology; etc.

• Society memberships Materials Research Society; Microscopy Society of America; American Physical Society; The Minerals, Metals & Materials (TMS); American Vacuum Society

Department and School Committees

2016-2018 Chair, Research Committee, Watson School of Engineering and Applied Science 2016-2017 Chair, Space Committee, Mechanical Engineering Department 2015-2016 Chair, Research Committee, Watson School of Engineering and Applied Science 2005-2017 Member, Graduate Committee, Mechanical Engineering Department 2013-2014 Member, Research Committee, Watson School of Engineering and Applied Science 2013-2014 Chair, Seminar Committee, Mechanical Engineering Department 2007-2014 Member, Graduate Committee, Mechanical Engineering Department 2008-2009 Member, Computer/Web committee, Mechanical Engineering Department

University Committees

2016-2017 Member, Smart Energy Transdisciplinary Areas of Excellence Committee Research Collaboration

Argonne National Laboratory Khalil Amine (Group Leader, Battery Technology Department) Ilias Belharouak (Staff Scientist, Battery Technology Department)

Binghamton University Junghyun Choi (Professor, Department of Mechanical Engineering) Changhong Ke (Associate Professor, Department of Mechanical Engineering)

Jiye Fang (Associate Professor, Department of Chemistry) Joon Jang (Assistant Professor, Department of Physics) Aleksey Kolmogorov (Assistant Professor, Department of Physics) Louis Piper (Assistant Professor, Department of Physics) M Stanley Whittingham (Professor, Department of Chemistry) CJ Zhong (Professor, Department of Chemistry)

University of Cambridge, UK Stephan Hofman (Associate Professor, Department of Engineering)

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Brookhaven National Laboratory Eric Stach (Group Leader, Electron Microscopy Group) Dong Su (Staff Scientist, Electron Microscopy Group) Peter Sutter (Group Leader, Interfacial Science and Catalysis) Xiao Tong (Staff Scientist, Interfacial Science and Catalysis) Jurek Sadowski (Staff Scientist, Interfacial Science and Catalysis)

Carnegie Mellon University Alan JH McGaughey (Associate Professor, Department of Mechanical Engineering)

Helmholtz-Zentrum Berlin für Materialien und Energie Gmb, Germany David Starr

Lawrence Berkeley National Laboratory Jim Ciston (Senior Staff Scientist, National Center for Electron Microscopy)

National Institute of Standards and Technology Renu Sharma (Project leader, Electron Microscopy)

Pacific Northwest National Laboratory Chongmin Wang (Senior Research Scientist, Interfacial & Nanoscale Science Facility)

Qingdao University, China Yiqian Wang (Professor, Department of Physics)

Rensselaer Polytechnic Institute Yunfeng Shi (Associate Professor, Department of Materials Science and Engineering) Liping Huang (Associate Professor, Department of Materials Science and Engineering) SUNY Buffalo Peihong Zhang (Associate Professor, Department of Physics) University of Groningen, Zernike Institute for Advanced Materials, Netherlands

Kathrin Mueller University of Massachusetts, Lowell Zhiyong Gu (Associate Professor, Department of Chemical Engineering) University of Pittsburgh

Judith C Yang (Professor, Department of Chemical and Petroleum Engineering) Wissam A. Al-Saidi (Research Professor, Department of Chemical and Petroleum engineering) Guofeng Wang (Associate Professor, Department of Mechanical Engineering and Materials Science)

West Virginia University Nick Wu (Associate Professor, Department of Mechanical and Aerospace Engineering)