Name: | Z.J. Ding(Ding Zejun, 丁泽军) | |
Address: | Department of Physics, University of Science and Technology of China, | |
230026 Hefei, P. R. China | ||
Tel: | 86-551-63601857 | |
Fax: | 86-551-63601073 | |
E-mail: | zjding@ustc.edu.cn | |
Web: | http://micro.ustc.edu.cn/Chindex.htm |
EDUCATION AND RESEARCH EXPERIENCE |
1978 - 1982 | B.S., University of Science & Technology of China |
1982 - 1985 | Assistant, University of Science & Technology of China |
1985 - 1990 | Ph.D., Osaka University |
1990 - 1993 | Lecturer, University of Science & Technology of China |
1993 - 1996 | Associate Professor, University of Science & Technology of China |
1996 - Now | Professor, University of Science & Technology of China |
RESEARCH INTERESTS |
1. | Modelling of particle interaction with solids and surface |
2. | Surface analysis, microbeam analysis, electron spectroscopy and electron microscopy |
3. | Microstructure of solids |
4. | Computational physics, quantum physics |
CURRENT RESEARCH PROJECTS |
Linewidth measurement method based on a calibrated linewidth database and scanning electron microscopy, National Key Research and Development Project (2020-2021) |
REPRESENTATIVE PUBLICATIONS |
1. | B. Da, Y. Sun, Z.F. Hou, J.W. Liu, N.T. Cuong, K. Tsukagoshi, H. Yoshikawa, S. Tanuma, J. Hu, Z.S. Gao and Z.J. Ding Measurement of the Low-Energy Electron Inelastic Mean Free Path in Monolayer Graphene Phys. Rev. Appl. (in press). |
2. | A. Hussain, L.H. Yang, Y.B. Zou, S.F. Mao, B. Da, H.M. Li and Z.J. Ding Theoretical Calculation of Mean Escape Depth of Secondary Electron Emission from Compound Semiconductor Materials J. Appl. Phys. (in press). |
3. | Mehnaz, L.H. Yang, Y.B. Zou, B. Da, S.F. Mao, H.M. Li, Y.F. Zhao and Z.J. Ding A Comparative Study on Monte Carlo Simulations of Electron Emission from Liquid Water Med. Phys. 47 (2020) 759-771. |
4. | X. Liu, Z.F. Hou, D.B. Lu, B. Da, H. Yoshikawa, S. Tanuma, Y. Sun and Z.J. Ding Unveiling the Principle Descriptor for Predicting the Electron Inelastic Mean Free Path Based on a Machine Learning Framework Sci. Technol. Adv. Mater. 20 (2019) 1090-1102. |
5. | L.H. Yang, K. Tőkési, J. Tóth, B. Da and Z.J. Ding High Precision Determination of Optical Properties of Silicon and Germanium from Reflection Electron Energy Loss Spectroscopy Spectra Phys. Rev. B 100 (2019) 245209. |
6. | C. Li, B. Da and Z.J. Ding Monte Carlo Study on the Surface Potential Measurement Using the Peak-shift Method Appl. Surf. Sci. 504 (2019) 144138. |
7. | D.B. Lu, Z.F. Hou, X. Liu, B. Da and Z.J. Ding Ab-Initio Simulation of Position-Dependent Electron Energy Loss and Its Application to the Plasmon Excitation of Nanographene J. Phys. Chem. C 123 (2019) 25341-25348. |
8. | B. Da, J. W. Liu, Y. Harada, N. T. Cuong, K. Tsukagoshi, H. Jin, L.H. Yang, Z.J. Ding, H. Yoshikawa and S. Tanuma Observation of Plasmon Energy Gain for Emitted Secondary Electron in Vacuo J. Phy. Chem. Lett. 10 (2019) 5770-5775. |
9. | C. Li, S.F. Mao and Z.J. Ding Time-dependent Characteristics of Secondary Electron Emission J. Appl. Phys. 125 (2019) 024902 Editor's Pick. |
10. | K.J. Zhang, D.B. Lu, B. Da and Z.J. Ding Coupling of Surface Plasmon Modes and Refractive Index Sensitivity of Hollow Silver Nanoprism Sci. Rep. 8 (2018) 15993. |
11. | L. Cheng, Y. Ming and Z.J. Ding Bohmian Trajectory-Bloch Wave Approach to Dynamical Simulation of Electron Diffraction in Crystal New J. Phys. 20 (2018) 113004. |
12. | Y. Ming, L. Ye, D.B. Ling, H.S. Chen, H.M. Li and Z.J. Ding Numerical Extraction of Sound Velocities of Energy Transfer Based on Solitons in Fermi-Pasta-Ulam Chains Phys. Rev. E 98 (2018) 032215. |
13. | L.H. Yang, M. Menyhard, A. Sulyok, K. Tőkési and Z.J. Ding Optical Properties and Excitation Energies of Iridium Derived from Reflection Electron Energy Loss Spectroscopy Spectra Appl. Surf. Sci. 456 (2018) 999-1003. |
14. | S.U. Rehman and Z.J. Ding Enhanced Electronic and Optical Properties of Three TMD Heterobilayers Phys. Chem. Chem. Phys. 20 (2018) 16604-16614. |
15. | Z.Y. Li, M. Jibran, X. Sun, A. Pratt, B. Wang, Y. Yamauchi and Z.J. Ding Enhancement of the Spin Polarization of an Fe3O4(100) Surface by Nitric Oxide Adsorption Phys. Chem. Chem. Phys. 20 (2018) 15871-15875. |
16. | H. Xu, L.H. Yang, J. Tóth, K. Tőkési, B. Da and Z.J. Ding Absolute Determination of Optical Constants of Three Transition Metals Using Reflection Electron Energy Loss Spectroscopy J. Appl. Phys. 123 (2018) 043306. |
17. | C. Li, S.F. Mao, Y.B. Zou, Y.G. Li, P. Zhang, H.M. Li and Z.J. Ding A Monte Carlo Modeling on Charging Effect for Structures with Arbitrary Geometries J. Phys. D: Appl. Phys. 51 (2018) 165301. |
18. | Y.B. Zou, M.S.S. Khan, H.M. Li, Y.G. Li, W. Li, S.T. Gao, L.S. Liu and Z.J. Ding Use of Model-Based Library in Critical Dimension Measurement by CD-SEM Measurement 123 (2018) 150-162. |
19. | Y. Ming, L. Ye, H.S. Chen, S.F. Mao, H.M. Li and Z.J. Ding Solitons as Candidates for Energy Carriers in Fermi-Pasta-Ulam Lattices Phys. Rev. E 97 (2018) 012221. |
20. | K.J. Zhang, B. Da and Z.J. Ding Effect of Asymmetric Morphology on Coupling Surface Plasmon Modes and Generalized Plasmon Ruler Ultramicrosc. 185 (2018) 55-64. |
21. | B. Da, J.W. Liu, M. Yamamoto, Y. Ueda, K. Watanabe, N.T. Cuong, S.L. Li, K. Tsukagoshi, H. Yoshikawa, H. Iwai, S. Tanuma, H.X. Guo, Z.S. Gao, X. Sun and Z.J. Ding Virtual Substrate Method for Nanomaterials Characterization Nature Commun. 8 (2017) 15629. |
22. | H. Xu, B. Da, J. Tóth, K. Tőkési and Z.J. Ding Absolute Determination of Optical Constants by Reflection Electron Energy Loss Spectroscopy Spectra Phys. Rev. B 95 (2017) 195417. |
23. | Y. Ming, D.B. Ling, H.M. Li and Z.J. Ding Energy Thresholds of Discrete Breathers in Thermal Equilibrium and Relaxation Processes Chaos 27 (2017) 063106. |
24. | Y.B. Zou, S.F. Mao, B. Da and Z.J. Ding Surface Sensitivity of Secondary Electrons Emitted from Amorphous Solids: Calculation of Mean Escape Depth by a Monte Carlo Method J. Appl. Phys. 120 (2016) 235102. |
25. | Y. Sun, F. Zhang, Z. Ye, Y. Zhang, X.W. Fang, Z.J. Ding, C.-Z. Wang, M.I. Mendelev, R.T. Ott, M.J. Kramer and K.-M. Ho ‘Crystal Genes’ in Metallic Liquids and Glasses Sci. Rep. 6 (2016) 23734. |
26. | Y. Ming, H.M. Li and Z.J. Ding Thermal Rectification and Negative Differential Thermal Conductance in Harmonic Chains with Nonlinear System-Bath Coupling Phys. Rev. E 93 (2016) 032127. |
27. | Y.G. Li, Y. Yang, M.P. Short, Z.J. Ding, Z. Zeng and J. Li IM3D: A Parallel Monte Carlo Code for Efficient Simulations of Primary Radiation Displacements and Damage in 3D Geometry Sci. Rep. 5 (2015) 18130. |
28. | Z. Ruan, R.G. Zeng, Y. Ming, M. Zhang, B. Da, S.F. Mao and Z.J. Ding Quantum Trajectory Monte Carlo Method for Study of Electron-Crystal Interaction in STEM Phys. Chem. Chem. Phys. 17 (2015) 17628-17637. |
29. | M. Zhang, Y. Ming, R.G. Zeng and Z.J. Ding Calculation of Bohmian Quantum Trajectories for STEM J. Microsc. 260 (2015) 200-207. |
30. | B. Da, K. Salma, H. Ji, S.F. Mao, G.H. Zhang, X.P. Wang and Z.J. Ding Surface Excitation Parameter for Rough Surfaces Appl. Surf. Sci. 356 (2015) 142-149. |
31. | X. Ding, R.C. Dai, Z. Zhao, Z.P. Wang, Z.Q. Sun, Z.M. Zhang and Z.J. Ding Irreversible Temperature Quenching and Antiquenching of Photoluminescence of ZnS/CdS:Mn/ZnS Quantum Well Quantum Dots Chem. Phys. Lett. 625 (2015) 147-150. |
32. | B. Da, Z.Y. Li, H.C. Chang, S.F. Mao and Z.J. Ding A Monte Carlo Study of Reflection Electron Energy Loss Spectroscopy Spectrum of a Carbon Contaminated Surface J. Appl. Phys. 116 (2014) 124307. |
33. | B. Da, H. Shinotsuka, H. Yoshikawa, Z.J. Ding and S. Tanuma Extended Mermin Method for Calculating the Electron Inelastic Mean Free Path Phys. Rev. Lett. 113 (2014) 063201. |
34. | R. Shimizu and Z.J. Ding Monte Carlo Modeling of Electron-Solid Interactions Rep. Prog. Phys. 55 (1992) 487-531. |