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Curriculum Vita

Lizhi Ouyang

6716 W 88^th St. #1406 Tel: (O) 615-963-7764

Overland Park, KS 66212 Fax: 615-963-5099 Cell: 816-213-3048

Email: louyang@tnstate.edu WWW: http://faculty.tnstate.edu/louyang/

Education

· M. S. Computer Science, University of Missouri-Kansas City, 2001

· Ph. D. Physics/Chemistry, University of Missouri-Kansas City, 2000

· M. S. Physics, University of Missouri-Kansas City, 1997

· B. S. Chemical Physics, University of Science & Technology of China, 1993

Appointments

Assistant Professor, 2005-current Tenn. Stat. Univ.
Assistant Research Professor, 2004-2005 UMKC
Lecturer, 2003 UMKC
Postdoc research associate, 2000-2004 UMKC
Computational Lab Manager, 1998-current, UMKC

Grants and Awards

Principle Investigator, 2007-2010

“Multiscale Simulation of Hierarchic Dental Material”

Nanoscience Research Program at the Center for Nanophase Materials Sciences

Co-Principle Investigator
Co-Principle Investigator,

“Ab initio to Continuum-scale Models of Nano-phased Ceramics with Experimental Validation”

NSF, CMS Nano/Bio Mechanics Program, Pending

Honors and Awards

· Chancellor's Interdisciplinary Ph.D. Fellowship 1998-1999

· Guanghua Award at USTC 1994

· Yilida Award at USTC 1993

· USTC team member in Mathematical Contest in Modeling 1991

Membership

· Sigma Xi

· American Geophysical Union

· American Physics Society

· American Association for the Advancement of Science

· American Ceramic Society

Dissertation and Thesis

· Ouyang, Lizhi (2000). Parallel Computing and First-Principles Calculations: Applications to Complex Ceramics and Vitamin B₁₂ (Advisor: Dr. Wai-Yim Ching)

· Ouyang, Lizhi (1997). A New Approach to Construct Large Periodic Continuous Random Network Model (Advisor: Dr. Wai-Yim Ching)

Teaching Experiences

Courses taught: Credit hours

Introduction to Quantum Mechanics I 3.0

Modern Physics 3.0

General Physics I: Mechanics 3.0

General Physics II: Electromagnetism, 3.0

General Physics III: Wave, Optics and Modern Physics 3.0

College Physics I & II 3.0

Introduction to Nanotechnology (Guest lecturer) 3.0

Publications

1. Paul Rulis, Hongzhi Yao, Lizhi Ouyang, and W.Y. Ching, “Electronic Structure, Bonding, Charge Distribution and X-ray Absorption Spectra of the (001) Surfaces of Fluorapatite and Hydroxyapatite”, In press, Phys. Rev. B.

2. Anil Misra, Lizhi Ouyang, Jun Chen, and W.Y. Ching, “ab initio Calculations of Strain Fields and Failure Patterns in Silicon Nitride Intergranular Glassy Film”, In press, Phil. Mag.

3. Hongzhi Yao, Lizhi Ouyang, Wai-Yim Ching, “ab initio Calculation of elastic Constants of Ceramic Crystals”, In press, J. Am. Ceram. Soc.

4. U. Hemamala, F. El-Ghussein, D. Muthu, A. Andersen, S. Carlson S, L. Ouyang, M. Kruger, “”, Soli. Stat. Comm. 141 (12), 680 (2007)

5. Jun Chen, Paul Rulis, Lizhi Ouyang, S.Satpathy and W.Y.Ching, "Vacancy enhanced ferromagnetism in Fe-doped rutile TiO₂", Phys.Rev.B74, 235207 (2006)

6. S. Yang, J.M. Phillips, L. Ouyang, “Density functional calculation of the geometric and electronic structure of a (1x1) and a (1x3) supported gold system: Au/TiO3/Mo(112)” Phys. Rev. B74 (24) 245424 (2006)

7. J.B.MacNaughton, A.Mowes, J.S.Lee, S.D.Wetting, H-B.Kraatz, L.Ouyang, W.Y.Ching and E.Z.Kurmaev, "Dependence of the DNA Electronic structure on environmental and structural variations", J.Phys.Chem. 110(32), 15742 (2006)

8. W. Y. Ching, Jun Chen, Paul Rulis, Lizhi Ouyang, and Anil Misra, "Ab initio Modeling of Clean and Y-doped Grain Boundaries in Alumina and Intergranular Glassy Films (IGF) in β-Si₃N₄", J. Materials Science, 41(16), 5061 (2006)

9. S. Yang, Lizhi Ouyang, J.M. Phillips and W.Y. Ching, "First-principles Density functional theory calculation of Methane adsorption on graphite (0001) surface". Phys. Rev. B73, 165407 (2006)

10. W.Y. Ching, Yong-Nian Xu, Paul Rulis, and Lizhi Ouyang, “The Electronic Structure and Spectroscopic Properties of 3C, 2H, 4H, 6H, 15R and 21R Polymorphs of SiC”, Materials Science and Engineering A, 422 C1-2, 147-156 (2006).

11. J. Chen, P. Rulis, Lizhi Ouyang, A. Misra, and W.Y. Ching, "Complex nonlinear deformation of a nanometer intergranular glassy films in silicon nitride ceramics", Phys. Rev. Lett., 95, 256103 (2005)

12. W.Y. Ching, Lizhi Ouyang, Paul Rulis, and Isao Tanaka, “Prediction of the x-ray absorption near edge structure of the new high-density phase of SiO₂”, Phys. Stat. Sol. (b): Rapid Research Letters, 242 (11), R94 (2005)

13. Jun Chen, Lizhi Ouyang, and W.Y. Ching, “Molecular dynamic simulation of Y doped ∑37 grain boundary in Alumina”, Acta Materialia, 53, 4111 (2005)

14. Paul Rulis, Jun Chen, Lizhi Ouyang, W.Y. Ching, Xiaotao Su and Stephen H. Garofalini “Electronic structure and bonding of intergranular glassy films (IGF) in polycrystalline Si₃N₄: Ab-initio studies and classical MD simulations”, Phys. Rev. B71, 235317 (2005)

15. Lizhi Ouyang, W.Y. Ching, “Predicting a new high density SiO₂ phase with high dielectric constant”, Phys. Stat. Sol. (b) 242, R66 (2005) (Rap. Res. Lett.)

16. Lizhi Ouyang, Paul Rulis, Wai-Yim Ching; Miroslav Slouf, Giorgio Nardin, Lucio Randaccio “Electric Structure and Bondings in Hydroxocobalamin”, Spectrochimica Acta, Part A: Molecular and Biomolecular Spectroscopy, 61, 1647, (2005) (invited)

17. Jun Chen, Yong-Nian Xu, Paul Rulis, Lizhi Ouyang, W.Y. Ching “Ab-initio tensor experiments on Y-doped ∑=3 grain boundary in α-Al₂O₃ ”, Acta Materialia, 53, 403, 2004.

18. Paul Rulis, Lizhi Ouyang, W.Y. Ching “Electronic Structure and Bonding in in Calcium Apatite Crystals: Hydroxyapatite, Fluroapatite, Chlorapatite and Bromapatite”, Phys. Rev. B 70, 155104 (2004).

19. S. Leitch, A. Moewes, Lizhi Ouyang, W. Y. Ching, and T. Sekine, "Properties of non-equivalent sites and band gap of spinel-phase silicon nitride." J. Phys.: Condens. Matter 16 6469 (2004)

20. W.Y. Ching, Lizhi Ouyang, Hongzhi Yao, Y.-N. Xu. “Electronic structure and bonding in the Y-Si-O-N quaternary crystals” Phys. Rev. B 70, 045103 (2004)

21. Lizhi Ouyang, W.Y. Ching “Electronic Structure and Dielectric Properties of ZrSilicate” J. Appl.Phys. 95, 7918 (2004)

22. Lizhi Ouyang, Paul, Rulis, W.Y. Ching, Giorgio Nardin and Lucio Randaccio, “Electronic Structure and Bonding in Adenosylcobalamin” Inorganic chemistry 43, 1235, (2004)

23. Lizhi Ouyang, Hongzhi Yao, Scott Richey, Yong-Nian Xu and W.Y. Ching, “On the Crystal Structure and Properties of YSiO2N” Phys. Rev. B69, 094112 (2004)

24. Lizhi Ouyang, D.M. Zhu, “Simulation of the Effect of Interstitials to Shear Modulus and Local Vibration Modes in Crystals” (AIP Conf. Proc. “SLOW DYNAMICS IN COMPLEX SYSTEMS”, 2003)

25. W.Y. Ching, Yong-Nian Xu and Lizhi Ouyang. “Eelctronic structure and bonding in crystalline Y10[SiO4]6N2”, J. Amer. Ceramic Soc. August 2003

26. W.Y. Ching, Lizhi Ouyang, and Yong-Nian Xu “Electronic and optical properties of Y₂SiO₅ and Y₂Si₂O₇ with comparisons to a-SiO₂ and Y₂O₃”, Phys. Rev. B 67, 245108, 2003

27. W.Y. Ching, Y.-N. Xu, Lizhi Ouyang, W. Wong-Ng “Comparative study of the electronic structure of ternary superconductors MoRuP and ZrRuP in the orthorhombic and hexagonal phases”, J. Appl. Phys. 93 (10): 8209,2003

28. E.Z. Kurmaev, A. Moewes, M. Bach, M. Neumann, Lizhi Ouyang, Lucio Randaccio, Paul Rulis and W.Y. Ching “The electronic structure and chemical bonding of Vitamin B12”, Euro. Phys. Lett. 62 (4) 582, 2003.

29. Lizhi Ouyang, L. Randaccio, P. Rulis, E. Kurmaev, A. Moewes, and W. Y. Ching “Electronic structure and Bonding in Vitamin B₁₂ Cynocobalamin”, J. Mol. Struct. (TheoChem) 622, 221 (2003)

30. W.Y. Ching, Y.N Xu, and Lizhi Ouyang “Electronic and Dielectric Properties of Insulating Zr₃N₄” Phys. Rev. B 66, 235106 (2002)

31. Lizhi Ouyang, W. Y. Ching “Electronic Structure and Bonding in the spinel phase SiAlON” Appl. Phys. Lett. 81, 229 (2002)

32. Lizhi Ouyang, Yong-Nian Xu, W.Y. Ching “Electronic Structure of ZrW₂O₈“, Phys. Rev. B 65, 113110(2002)

33. W.Y. Ching, Shang-di Mo, Lizhi Ouyang, Paul Rulis, Isao Tanaka, and Masato Yoshiya “Theoretical Prediction of the Structure and Properties of Cubic Spinel Nitrides”, J. Am. Ceram. Soc. 85, 75 (2002)

34. W.Y.Ching, Shang-di Mo, Lizhi Ouyang, "Electronic and optical properties of cubic phase of c-Si₃N₄, c-Ge₃N ,C-SiGe₂N₄, and C-GeSi₂N₄ ", Phys. Rev. B. 63, 254110 (2001).

35. Lizhi Ouyang and W.Y. Ching, "Geometry Optimization and Ground State Properties of Complex Ceramic Oxides", J. Am. Ceram. Soc. 84, 891(2001)

36. W.Y. Ching, Shang-di Mo, Lizhi Ouyang, IsaoTanaka, and MasatoYoshiya, "Prediction of the new spinel phase of Ti₃N₄ and SiTi₂N4 and the metal-insulator transition", Phys. Rev. B. 61, 10609 (2000).

37. W.Y. Ching, Shang-di Mo, Lizhi Ouyang and Yong-Nian Xu, “Recent Progress in the Electronic Structure Theory of Complex Ceramics” Grain Boundary Engineering in Ceramics, Ceramic Transaction, 118, 25, Proceedings of Workshop on JFCC 2000, Neqoya, Japan (2000)

38. W.Y. Ching, Lizhi Ouyang, and J.D. Gale, "Full ab initio geometry optimization of all known crystalline phases of Si₃N₄", Phys. Rev. B. 61, 8696 (2000).

39. Shang-Di Mo, Lizhi Ouyang, W.Y. Ching, Isao Tanaka, Yukinori Koyama, and Ralf Riedel, "Interesting Physical Properties of the New Spinel Phase of Si₃N₄ and C₃N₄", Phys. Rev. Lett. 83, 5046 (1999).

40. M.-Z. Huang, Lizhi Ouyang, and W. Y. Ching, "Electron and phonon states in an ideal continuous random network model of a-SiO₂ glass", Phys. Rev. B. 59, 3540 (1999).

41. Lizhi Ouyang, and W. Y. Ching, "Systematic approach to generate near-perfect periodic continuous random network models: application to amorphous Si₃N₄", Phys. Rev. B: Condens. Matter 54, R15594 (1996).

42. Houwen Xin, Lingfa Yang, and Lizhi Ouyang, "Calculation of the orientational phase transition temperature in solid C₆₀", Chin. Phys. Lett. 12, 473 (1995).

43. Lingfa Yang, Lizhi Ouyang and Houwen Xin, "Theoretical study of orientational transition in solid C₆₀", Huaxue Wuli Xuebao 8, 320 (1995).

44. Hou-Wen Xin, Ling-Fa Yang and Lizhi Ouyang, "Theoretical studies of orientational phase transitions in solid C₆₀", Huaxue Xuebao 52, 990 (1994).

Presentations and Workshops

Invited Talk

1. Lizhi Ouyang, “Electronic Structures and Bonding in Complex Biomolecules”, APS March meeting, Los Angeles, 2005

2. Lizhi Ouyang, “Electronic Structures and Dielectric Properties of Gate material (ZrO2)x(SiO2)1-x” Dept. of Phys., University of Missouri-Kansas City, 2003

3. Lizhi Ouyang, “First principles calculations of complex ceramics and biomolecules”, Los Alamos National Laboratory, NM, Nov. 19 (2001)

Selected Presentations

1. Lizhi Ouyang, J. Chen, A. Misra, W.Y. Ching, “Relating Ab Initio Mechanical Behavior of Intergranular Glassy Films in Ã¢-Si3N4 to Continuum Scales”, AGU Spring Meeting, Baltimore (2006)

2. Lizhi Ouyang, W.Y. Ching, “Electronic Structures and Dielectric Properties of Gate material (ZrO2)x(SiO2)1-x” NANOAM workshop, Boston (2003)

3. Lizhi Ouyang, W.Y. Ching, “Structural modeling of composite materials: crystalline Si embedded in amorphous SiO₂”, March meeting, Am. Phys. Soc. Indianapolis (2002)

4. Paul Rulis, W.Y. Ching, Lizhi Ouyang, “Electronic Structure and Bonding of Fluroapatite and Hydroxylapatite”, March meeting, Am. Phys. Soc., Indianapolis(2002)

5. Lizhi Ouyang, W.Y. Ching, “Electronic structures of cubic and orthorhombic phase of ZrW₂O₈ ”, March meeting, Am. Phys. Soc., Seattle (2001)

6. Lizhi Ouyang, W.Y. Ching, “Full geometry optimization of complex ceramic crystals by the method of finite-defference in ab-initio total energy” The American Ceramic Society’s 102^nd Annual Meeting and Exposition, St. Lious, April 30-May 3, 2000

7. Lizhi Ouyang, W.Y. Ching, “Electronic structures of cubic and orthorhombic phase of ZrW₂O₈ ”, Am. Ceram. Soc., Minneapolis (1998)

8. Lizhi Ouyang, W.Y. Ching, “Sytemmatic Construction of Large Periodic Structural Models for Covalent glasses and Interfaces ”, March meeting of Am. Phys. Soc., Kansas city, March, 17-21, (1997)

9. Lizhi Ouyang, W.Y. Ching, “Construction of Large Periodic Models for Amorphous Si₃N₄”, 98^th Annual Meeting of American Ceramic Society, Indianapolis, IN, Apr. 14-17, (1996)

Poster

1. Lizhi Ouyang, P.Rulis, and W.Y. Ching, “Computational Studies of Apatite Crystals and Surfaces”, Goldon Research Conference on Interface in chemistry, Kimball Union Academy, NH, Aug 17-21 (2004)

2. Lizhi Ouyang, W.Y. Ching, L. Randaccio, “Electronic Structure of B12 coenzyme”, DCOMP 2001, Cambridge (2001)

3. Lizhi Ouyang, W.Y. Ching, “A Systematic Method for Modeling the Structures of Covalent Glasses and Their Interfaces”, Golden Research Conference on Solid State Studies in Ceramics, Kimball Union Academy, NH, Aug. 4-9 (1996)

Workshop Fellowship

1. Theoretical and Computational Nanoscience Workshop workshop at Oak Ridge National Laboratory, sponsored by Nanomaterial Theory Institute (2003), Oak Ridge TN (2003)

2. ACTS workshop at Lawrence Berkeley Laboratory, sponsored by National Energy Research Supercomputer Center (NERSC), Berkeley CA (2000)

Synergetic Activities

Software development:

1. G(P,T): A script library that automates the computation of mechanical properties, phonon and free energy of periodic atomic models. It runs on most supercomputer platform.

2. DefAna: A program that computes the local strain fields based on atomistic models. It has been successfully applied to analyze the

3. pOLCAO: Update the legacy Fortran 77 code of the orthogonalized linear combination of atomic orbitals (OLCAO) program to Fortran 90 standard; develop a geometry optimization algorithm for OLCAO; improve several key algorithms in the OLCAO program; parallelize using MPI library.

4. Fist: An efficient XANES/ELNES spectral calculation program optimized for complex system based on pOLCAO; scripts that automate the calculations of XANES/ELNES.

5. XBand: a color electronic and vibrational energy bands visualization program.

Professional activities:

1. Leading the TSU group for IBM-TSU collaboration on high performance computing

2. Computational facility management: self-made pc-cluster, SAN storage network; Sun Enterprise Server at the computer science department.

3. Regular user of Department of Energy supercomputer resources.

4. Referee for Physics Review, Journal of American Ceramic Society and Journal of Applied Physics., Phil. Mag. etc.

Collaborations:

1. X-ray spectroscopic studies of biomaterials: DNA conductivity, Ferrocene peptide/biosensor, etc. (Alex Moewes, Materials Engineering, University of Saskatchewan);

2. Multiscale simulations of bio-tissue such as bone and teeth (Anil Misra, Mechanic Engineering, UMKC; Paulette Spencer/J.R. Katz, Oral biology, UMKC);

3. Novel ceramics such as spinel nitrides (Isao Tanaka, Kyoto Univeristy)