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High Performance Computing Lab

Dr. Shizhong Yang

Shizhong Yang, Ph.D.
Professor


Department of Computer Science

Office: E105, Thurman Hall
Phone: 225-771-3113
Fax: 225-771-4223
E-mail: shizhong_yang@subr.edu

Research Interests
  • Refractory multicomponent alloy (W, Re, Os, Ta) design and validation
  • High performance computation algorithm, software design
  • High speed optical network study: CRON and GENI projects
  • Accurate reaction barrier calculation method development
  • Fatigue, creep, crack, and life time prediction simulation with physical critical distance model
  • Linearly scalable ab initio molecular dynamics method and code development
  • Computational surface physics: physisorption and chemisorption
  • GW and quantum Monte-Carlo (QMC) methods and application in material simulation
  • High temperature superconductor development: basic mechanism and real materials synthesis & characterization
  • High temperature superconductor AC loss testing and control
  • High temperature Cr and Nb based alloy oxidation and TBC study
  • ODS alloy development, dislocation dynamics, creep, fatigue, and life time prediction
  • High entropy alloy design, synthesis, property study and validation
  • High pressure synchrotron radiation XRD, EXAFS, and XANES nano material study
  • High temperature sulphur corrosion resistance material design and validation
  • Electronic structure and optical properties of doped ZrO2 and Al2O3/ZrO2
  • Ab initio plane wave and full potential material simulation: doped C60, graphene, and CNT
  • STM, SEM, AFM, XPS, ESR, DLTS material testing
  • Raman and FT-IR spectroscopy, synchrotron X-ray diffraction, and neutron defect characterization
  • Semiconductor material properties and devices
  • Protein structure prediction and interaction of gK and UL20
  • HSV-1 gK, gB, and gH-gL docking and interaction
  • Apocynin, nitroapocynin, and diapocynin/p47phox docking and MD study
Education
  • Ph. D. in Electrical Computer Engineering and Physics, University of Missouri-Kansas City, 2006
  • M. S. in Electrical Computer Engineering, University of Missouri-Kansas City, 2005
  • B. S. in Semiconductor Physics with honors, Sichuan University, P. R. China, 1988
Research and Professional Experience
  • Professor, Â鶹´«Ã½, July 2023 -- Present
  • Associate Professor, Â鶹´«Ã½, June 2017 -- June 2023
  • Assistant Professor, Â鶹´«Ã½, June 2008 -- May 2017
  • Visiting Faculty, Department of Industrial and Mechanical Engineering, Louisiana State University, January 2013 -- present
  • Assistant Professor, Physics Department, Â鶹´«Ã½, August 2007 -- May 2008
  • Postdoc on NSF and NASA supported molecular dynamics nano-material simulation, Physics Department, Â鶹´«Ã½, August 2006 -- July 2007
  • Research Assistant, University of Missouri, January 2000 -- July 2006
  • Faculty, Northeastern University, July 1997--December 1999
  • Research Assistant, Sichuan University, September 1994 -- June 1997
  • Electronic Engineer, Ganzhou No. 852 Radio Station, July 1988 -- August 1994
Publications
  • C. Zhang, U. Bhandari, J. Lei, C. Zeng, S. Guo, H. Choi, S. Nam, J. Yan, S. Yang, and F. Gao, Performance of carbide alloy compounds in carbon doped MoNbTaW, .
  • U. Bhandari, H. Ghadimi, C. Zhang, F. Gao, S. Yang, and S. Guo, Computational exploration of biomedical HfNbTaTiZr and Hf0.5Nb0.5Ta0.5Ti1.5Zr refractory high-entropy alloys, .
  • C. Zhang, B. Yue, U. Bhandari, O. Starovoytov, Y. Yang, D. Young, J. Yan, F. Hong, and S. Yang, In situ study on the compression deformation of MoNbTaVW, .
  • U. Bhandari, C. Zhang, C. Zeng, S. Guo, A. Adhikari, and S. Yang, Deep learning-based hardness prediction of novel refractory high-entropy alloys with experimental validation, .
  • U. Bhandari, M. R. Rafi, C. Zhang, and S. Yang, Yield strength prediction of high-entropy alloys using machine learning, .
  • C. Zhang, U. Bhandari, C. Zeng, H. Ding, S. Guo, J. Yan, and S. Yang, Carbide formation in refractory Mo15Nb20Re15Ta30W20 alloy under a combined high-pressure and high-temperature condition, .
  • U. Bhandari, C. Zhang, C. Zeng, S. Guo, and S. Yang, Computational and experimental investigation of refractory high entropy alloy Mo15Nb20Re15Ta30W20, .
  • U. Bhandari, C. Zhang, S. Guo, and S. Yang, First-principles study on mechanical and thermodynamic properties of MoNbTaTiW, .
  • U. Bhandari, C. Zhang, and S. Yang, Mechanical and thermal properties of low-density Al20+xCr20-xMo20-yTi20V20+y alloys, .
  • C. Guo, Y. Yang, L. Tan, S. Guo, B. Chen, J. Yan, and S. Yang, Unexpected pressure induced ductileness tuning in sulfur doped polycrystalline nickel metal, .
  • O. N. Starovoytov, D. Gangavaram, S. Devarapally, D. Young, E. Khosravi, G. Li, P. Mensah, D. Jerro, S. Ibekwe, G. Joshi, B. Zhang, S. Guo, and S. Yang, Synchorotron X-ray diffraction shear press study of MoNbTaVW, .
  • Y. Mo, J. M. Perez, Z. Ye, L. Zhao, S. Yang, L. Tan, Z. Li, F. Gao, and G. L. Zhao, Effects of light on the resistivity of chemical vapor deposited graphene films, .
  • M. C. Gao, B. Zhang, S. Yang, and S. M. Guo, Senary refractory high entropy alloy HfNbTaTiVZr, .
  • B. Zhang, M. C. Gao, Y. Zhang, S. Yang, and S. M. Guo, Senary refractory high entropy alloy MoNbTaTiVW, .
  • O. Starovoytov, Y. Liu, L. Tan, and S. Yang, Effects of hydroxyl group on the phenyl based ligand/ERRr protein binding, .
  • F. Gao, G.L. Zhao, and S. Yang, Catalytic reactions on the open-edge site of nitrogen-doped carbon nanotubes as cathode catalyst for hydrogen fuel cells, .
  • B. Chen, K. Lutker, J. Lei, J. Yan, S. Yang, and H.K. Mao, Detecting grain rotation at the nanoscale, .
  • M. H. Habibi, S. Yang, and S. Guo, Phase stability and hot corrosion behavior of ZrO2-Ta2O5 compound in Na2SO4-V2O5 mixtures at elevated temperatures, .
  • J. Lei, B. Chen, S. Guo, K. Wang, L. Tan, E. Khosravi, J. Yuan, S. V. Raju , and S. Yang, Structural and mechanical stability of dilute yttrium doped chromium, .
  • L. Tan and S. Yang, First principles calculation of Nb2AlC/Nb interfaces, .
  • F. Gao, G.L. Zhao, S. Yang, and J. L. Spivey, Nitrogen-doped fullerene as a potential catalyst for hydrogen fuel cells, .
  • R. Guo, S. Yang, E. Khosravi, G.L. Zhao, and D. Bagayoko, First principles simulation on the K0.8Fe2Se2 high-temperature structural superconductor, .
  • L. Tan, R. Guo, S. Yang, E. Khosravi, G.L. Zhao, and D. Bagayoko, Electronic structure of K0.8Fe2Se2 from density functional theory GW method simulation, .
  • B. Chen, S. V. Raju, J. Yuan, W. Kanitpanyacharon, J. Lei, S. Yang, H. R. Wenk, H.K. Mao, and Q. C. Williams, Texture of nanocrystalline nickel: probing the lower size limit of dislocation activity, .
  • S. Yang, G.L. Zhao, and E. Khosravi, Dioxygen adsorption and dissociation on nitrogen doped carbon nanotubes from first principles simulation, .
  • W. Yin, D. Esposito, S. Yang, C. Ni, J. Chen, G.L. Zhao, Z. Zhang, C. Hu , M. Cao, and B. Wei, Controlling novel red-light emissions by doping In2O3 nano/microstructures with interstitial nitrogen, .
  • S. Yang, G.L. Zhao, and E. Khosravi, First principles studies of nitrogen doped carbon nanotubes for dioxygen reduction, .
  • S. Yang, G.L. Zhao, and J. M. Phillips, The electronic structures of commensurate Ru(0001)-(3 x 3) -4Kr and Ru(0001)- (5 x 5)-Kr using density functional theory, .
  • S. Yang, S. Guo, S. Bai, E. Khosravi, G. Zhao, and D. Bagayoko, Doped C60 study from first principles simulation, .
  • W. Wang, Z. Wang, J. Tang, S. Yang, H. Jin, G. L. Zhao, and Q. Li, Seebeck coefficient and thermal conductivity in doped C60, .
  • G.L. Zhao, S. Yang, D. Bagayoko, J. Tang, and Z.J. Wang, Electronic structure of C60 semiconductors under controlled doping with B, N, and Co atoms, .
  • S. Yang and James M. Phillips, Geometric and electronic structure of commensurate 4Ar/Ag(111)-(  )R19.1 by density functional theory, .
  • S. Yang, J. M. Phillips, and L. Ouyang, Density functional calculation of the geometric and electronic structure of a (1x1) and (1x3) supported gold system: Au/TiO3/Mo(112), .
  • S. Yang, L. Ouyang, J. M. Phillips, and W. Y. Ching, Density-functional calculation of methane adsorption on graphite(0001), .
  • S. Yang, F. M. Leibsle, and J. M. Phillips, Quantum chemical calculations of coupled vibrations of adsorbates: A comparative study of CO/Cu(110) and O/diamond (100)system, .
  • Y. Liao, S. Yang, Z. Chen, and Z. You, Study on VF ~ Trr tradeoff of Palladium doped fast recovery silicon diode, JOURNAL OF SICHUAN UNIVERSITY 40 74 (2003).
  • L. Hu, L. Zhou, J. Wang, P. Zhang, C. Li, S. Yang, Y. He, and J. Li, AC loss of Bi2223/Ag superconducting tape measured by transport current method, RARE METAL MATERIALS AND ENGINEERING 30 169 (2001).
  • S. Yang, Y. He, C. Lu, J. Li, J. Sun, J. Wang, P. Zhang, C. Li, Y. Feng, L. Zhou, W. Lin, Y. Zhou, H. Deng, P. Hua, and G. Yuan, The AC loss of transport current in (Bi, Pb)-2223 superconducting tapes, .
  • Z. Li, S. Yang, J. Sun, X. Huang, J. Wang, Z. Duan, P. Zhang, Y. Feng, and L. Zhou, Effects of axial tensile and bending strains on the critical current of Bi-2223, .
  • J. Wang, S. Yang, Y. He, C. Yang, Z. Duan, Y. Feng, P. Zhang, and L. Zhou, Study on AC loss of high Tc superconductors in 50 Hz applied magnetic field, .
  • J. Li, J. Wang, Y. He, S. Yang, J. Sun, Y. Wanf, and C. Lu, The calculation of HTS current limiter with saturated iron core, CRYOGENICS AND SUPERCONDUCTIVITY 27 32 (1999).
  • J. Wang, S. Yang, Y. He, L. Hu, Z. Duan, P. Zhang, and L. Zhou, The effects of Pb-doping and different process on AC loss of Bi2223/Ag tapes, MT-15, Science Press, 1086 (1997).
  • Y. He, S. Yang, C. Yang, J. Wang, Y. Feng, P. Zhang, and L. Zhou, Study on AC loss of YBa2Cu3-xSnxOy superconductor, MT-15, Science Press, 1102 (1997).