41. Microscopic Interface Phonon Modes in Structures of GaAs Quantum Dots Embedded in AlAs Shells, Guoyi Qin and Shang-Fen Ren, to be published (2001).

40. Effects of Core Size and Shell Thickness on Phonon Modes in GaAs/AlAs Shell Quantum Dots, Guoyi Qin and Shang-Fen Ren, accepted for publishion by the Journal of Applied Physics, (2001).

39. Phonon Modes in InAs QDs, Shang-Fen Ren, Deyu Lu, and Guoyi Qin, accepted for publication by Phys. Rev. B (2001).

38. Quantum Confinement of Phonon Modes in InAs QDs, Shang-Fen Ren and Deyu Lu, Proceedings of the Third Joint Meeting of the Chinese Physicists Worldwide in Hong Kong, the World Scientific Publishing Company (in press, 2001) .

37. The Role of the Silicon Oxide Layers in Luminescence of Ensembles of Silicon Quantum Dots, S. H. Wang, G. Qin, and Shang-Fen Ren, Commu. Theor. Phys. (in press, 2001).

36. Peaks or Dips: Optical-Phonon Raman Scattering Theory in Semiconductor Multiple Quantum Wells Revisited, Bang-Fen Zhu and Shang-Fen Ren, ICPS-25 Proc, Osaka, Japan, pp 62-63 (2000).

35. Quantum Confinement of Phonon Modes in GaAs Quantum Dots, S. F. Ren, Z. Q. Gu and D. Y. Lu. Solid State Communication, 113 273-277 (2000).

34. Interface Phonon Modes in Strained Semiconductor Superlattices, S. F. Ren and J. Stanfield, International Journal of Modern Physics B, V. 12, No. 29 - 3, 3137 - 3140 (1998).

33. Microscopic Modeling of Phonon Modes in ZnTe/CdSe Semiconductor Superlattices, S. F. Ren, International Symposium on Frontier of Modern Physics, Peking University, Beijing, May, 13 (1998).

32. Total and Surface Density of States in CdS Semiconductor Clusters, S. Y. Ren and S. F. Ren, J. Phys. Chem Solids, 59 (8), 1327-1330, (1998).

31. The Application of Green's Function Technique to the Calculation of Multiphoton Absorption Coefficients of Crystalline Solid, C.G. Duan, Z, Q. Gu, J. Li, D. S. Wang, and S. F. Ren, Phys. Rev. B., 57 (1), 10 (1998).

30. Phonons in ZnTe/CdSe Superlattices with Interchange of Cation Layers Across Interfaces. Z. Z. Xu, H. Dowd, S. F. Ren, and Z. Q. Gu, J. of Physics: Condensed Matter, 10 (7), 1539, (1998).

29. Poisson's Ratios in Diamond/Zincblende Crystals, G. B. Erdakos and S. F. Ren, Journal of Physics and Chemistry of Solids, 59 (1), 21, (1998).

28. In-Plane Phonons in (001) (ZnTe)8(CdSe)8 strained Superlattices, S. F. Ren and Z. Z. Xu, Solid State Communication, 107 (7), 435, (1997).

27. Ab initio Pseudopotential Calculations of InAs/AlSb Hetrostructures, S. F. Ren and J. Shen, Journal of Applied Physics, 81 (3), 1169, (1997).

26. Study of Reconstructions at Interfaces of CdSe/ZnTe Superlattices by Total energy Calculations, S. F. Ren, Z. Q. Gu and Y. C. Chang, J. of Vac. Sci. & Tech. B, 13(4), 1711-1714, (1995).

25. Electronic Structures and Optical Properties of Multi-quantum Wells, S. F. Ren, J. B. Xia, H. X. Han, and Z. P. Wang, Phys. Rev. B., 50, 14416, (1994).

24. Electronic Properties of Superlattices, S. F. Ren, Z. Q. Gu and Y. C. Chang, Phys. Rev. B., 49, 7569, (1994).

23. Optical Properties of the Zincblende CdSe and Films Grown on GaAs, Y. D. Kim, M. V. Klein, S. F. Ren, Y. C. Chang, H. Luo, N. Samarth, and J. K. Furdyna, Phys. Rev. B., 49, 7270, (1994).

22. Theory of Nonresonant Raman Scattering of GaAs/AlAs Superlattices, S. F. Ren, Y. C. Chang, and Han-You Chu, Phys. Rev. B., 47, 1489, (1993).

21. Optical Anisotropy Spectra of GaAs(001) Surfaces, Y. C. Chang, S. F. Ren, and D. E. Aspenes, J. Vac. Sci. Technol., A10(4), 1856, (1992).

20. Electronic and Optical Properties of GaAs(001) (2x4) and (4x2) Surfaces, S. F. Ren and Y. C. Chang, Phys. Rev. B., 44, 13573, (1991).

19. Optical Phonons in GaAs-AlAs Quantum Wires, S. F. Ren and Y. C. Chang, Phys. Rev. B. 43, 11857, (1991).

18. Electronic Structures of GdAs/GaAs Metal-semiconductor superlattices, J. B. Xia, S. F. Ren and Y. C. Chang, Phys. Rev. B., 43(2), 1692-1698, (1991).

17. Electronic Properties of Sulfur Treated GaAs (001) Surfaces, S. F. Ren and Y. C. Chang, Phys. Rev. B., 41(11), 7705-7712, (1990).

16. Phonons in Semiconductor Superlattices, Y. C. Chang, S. F. Ren, and H. Chu, Superl. and Microstr. 9 (3), 383-389, (1991).

15. Phonon Dispersion Curves of GaAs-AlAs Superlattices Grown in the [111] and [110] Directions, S. F. Ren, H. Y. Chu, and Y. C. Chang, Phys. Rev. B., 40(5), 3060-3065, (1989).

14. Long Wave-length Optical Phonons in Polar Superlattices, H. Y. Chu, S. F. Ren, and Y. C. Chang, Phys. Rev. B., 37(18), 10746-10755, (1988).

13. Anisotropy of Optical Phonons and Interface Modes in GaAs-AlAs Superlattices, S. F. Ren, H. Y. Chu, and Y. C. Chang, Phys. Rev. B., 37(15), 8899-8910, (1988).

12. Phonon Dispersion Curves of GaAs/AlAs Superlattices, S. F. Ren, H. Y. Chu, and Y. C. Chang, Superl. and Microstr. 4(3), 303-305, (1988).

11. Anisotropy of Optical Phonons in GaAs-AlAs Superlattice, S. F. Ren, H. Y. Chu, and Y. C. Chang, Phys. Rev. Lett., 59(16), 1841-1844, (1987).

10. Effects of Alloy Disorder on Schottky Barrier Heights at Metal Semiconductor Alloy Interfaces, C. W. Myles, S. F. Ren, R. E. Allen, Phys. Rev. B., 35(18), 9758-9765, (1987).

9. Dangling Bonds and Schottky Barriers, O. F. Sankey, R. E. Allen, S. F. Ren, J. D. Dow, J. Vac. Sci. Technol., B, 3(4), 1162-1166, (1985).

8. Theory of Defect Complexes at Semiconductor Surfaces, S. F. Ren and R. E. Allen, Solid State Commun. 64(4), 589-591, (1985).

7. Defect Complexes and Schottky Barriers, S. F. Ren and R. E. Allen, Surf. Sci., 148(2-3), L637-l640, (1984).

6. Energy Levels of Paired Donor Impurities in Alloys, S. F. Ren and J. D. Dow, Applied Physics, A33(4), pp269-272, (1984).

5. A Mechanism of Luminescence Enhancement by Classical-well Structure or Superlattice, S. F. Ren and J. D. Dow, J. Lumin, 33(1), 103-7, (1985).

4. Possibility of Line Radiation at the Interface of MOS, J. H. You, R. C. Wang, and S. F. Ren, Nuovo Cimento Soc. Ital., Fis.,D, 3d(6) 1067-74, (1984).

3. Charged Spin-1/2 Particles in the Uniform Electrical Field, E. Ley-Koo, R. C. Wang, S. F. Ren, X. M. Hua, and Z. Y. Sun, Journal of China University of Science and Technology, Vol. 13, No. 2, (1983).

2. On the Expansions of a Paraboloidal Wave in Cylindrical and Spherical Waves, E. Ley-Koo, R. C. Wang, Z. Y. Sun, and S. F. Ren, Journal of China University of Science and Technology, No. 3, (1982).

1. Surface Energy Levels on the Rotating Magnetic Neutron Stars and its Observation Effects, R. C. Wang, L. Z. Fang, and S. F. Ren, China's Nature Journal, No. 3, (1980).