Publication

 

 
 
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BOOK CHAPTER

1.       Book chapter “CNT Mechanical Applications” for the book “Applications of Carbon Nanotube”, Yani Zhang, Gengzhi Sun, Lianxi Zheng, Pan Stanford, ISBN: 9789814303187, 2012.

2.       Book chapter “Carbon nanotube based sensors” in the book “Nanosensors: Theory and Applications in Industry, Healthcare and Defense”, Lianxi Zheng, Satishkumar B. C., Taylor and Francis Group, LLC, ISBM: 978143980736, 2010.

 

JOURNAL PUBLICATIONS

 

2012

1.       “Fabrication of micro-scale CNT fibers”, Gengzhi Sun, Yani Zhang, Lianxi Zheng, J Nano Materials, accepted.

2.       “Failure mechanisms of carbon nanotube fibers under different strain rates”, Yani Zhang, Lianxi Zheng, Gengzhi Sun, Zhaoyao Zhan, Kin Liao, Carbon, 10.1016/j.carbon.2012.02.057.

3.        “Polarization behaviours of twisted carbon nanotube fibers”, Jinyuan Zhou, Gengzhi Sun, Zhaoyao Zhan, Jianing An, Yongzhe Zhang, Yani Zhang, and Lianxi Zheng, J. Raman Spectroscopy, accepted.

4.        “Electrochemical capacitive properties of CNT fibers spun from vertically aligned CNT arrays”, Gengzhi Sun, Jinyuan Zhou, Feng Yu, Yani Zhang, John Hock Lye Pang, Lianxi Zheng, J Solid State Electrochem, DOI 10.1007/s10008-011-1606-2, 2012.

5.       “Self-powered, visible-light photodetector based on thermally reduced graphene oxide-ZnO (rGO-ZnO) hybrid nanostructure”, Zhaoyao Zhan, Lianxi Zheng, Yongzheng Pan, Gengzhi Sun, and Lin Li, J. Mater. Chem. 22(6), 2589-2595, 2012.

 

2011

1.       "Reliable and Large Curvature Actuation from Gradient-Structured Graphene Oxide", Sun, Gengzhi; Pan, Yongzheng; Zhan, Zhaoyao; Zheng, Lianxi; Lu, Jingyu; Pang, John; Li, Lin; Huang, Weimin, Journal of Physical Chemistry C 115, 23741-23744, 2011.

2.       Universial photoluminescence evolution of solution-grown ZnO nanorods with annealing: important role of hydrogen donor”, Huang, XH; Tay, CB; Zhan, ZY; Zhang, C; Zheng, LX; Venkatesan, T; Chua, SJ; CRYSTENGCOMM 13, 7032-7036, 2011.

3.       Photoresponse of multi-walled carbon nanotube-Copper sulfide (MWNT-CuS) hybrid structures”, Z. Y. Zhan, C. Liu, L. X. Zheng, G. Z. Sun, B. S. Li, Q. Zhang, Phys. Chem. Chem. Phys. 13, 20471-20475, 2011.

4.       “Ultra-sensitive and wide-dynamic-range sensors based on dense arrays of carbon nanotube tips” Gengzhi Sun, Yinxi Huang,  Lianxi Zheng, Zhaoyao Zhan, Yani Zhang, John H. L. Pang, Tom Wu,  Peng Chen, Nanoscale 11, 4854-4858, 2011.

5.       “Fabrication and characterization of recyclable carbon nanotube/polyvinyl butyral composite fiber”, Yuanqing Li, Ting Yu, Tzesian Pui, Peng Chen, Lianxi Zheng, Kin Liao, Composites Science and Technology 71, 1665-1670, 2011.

6.       “The Effects of Catalyst Treatment on Fast Growth of Millimeter-Long Multi-Walled Carbon Nanotube Arrays”, Zhaoyao Zhan, Yani Zhang, Gengzhi Sun, Lianxi Zheng, Kin Liao, APPLIED SURFACE SCIENCE 257, 7704-7708, 2011.

7.       Carbene-Functionalized Single-Walled Carbon Nanotubes and Their Electrical Properties”, Chao Liu, Qing Zhang, Francesco Stellacci, Nicola Marzari, Lianxi Zheng, Zhaoyao Zhan, SMALL7,1257-1263, 2011.

8.       “Water-responsive shape memory hybrid: Design concept and demonstration”, K. Fan1, W. M. Huang, C. C. Wang, Z. Ding, Y. Zhao, H. Purnawali, K .C. Liew, L. X. Zheng,  EXPRESS POLYMER LETTERS 5, 409–416, 2011.

9.       “A comparison of the mechanical properties of fibers spun from different carbon nanotubes”, Jingjing Jia, Jingna Zhao, Geng Xu, Jiangtao Di, Zhenzhong Yong, Yuyu Tao, Chao Fang, Zuoguang Zhang, Xiaohua Zhang, Lianxi Zheng, Qingwen Li, CARBON   49, 1333-1339,  2011.

10.     “Synergistic effect of hybrid carbon nanotube-graphene oxide as a nanofiller in enhancing the mechanical properties of PVA composites”, Y. Q. Li, T. Y. Yang, T. Yu, L. X. Zheng, K. Liao, JOURNAL OF MATERIALS CHEMISTRY 21, 10844-10851, 2011.

11.     “Fabrication of transparent and conductive carbon Nanotube/polyvinyl butyral films by a facile solution surface dip coating method”, Yuanqing Li, Ting Yu, Tzesian Pui, Peng Chen, Lianxi Zheng and Kin Liao, NANOSCALE 3, 2469-2471, 2011.

 

2010

1.       “Rayleigh-Instability-Driven Simultaneous Morphological and Compositional Transformation from Co Nanowires to CoO Octahedra”, X. H. Huang, Z. Y. Zhan, X. Wang, Z. Zhang, G. Z. Xing, D. L. Guo, D. P. Leusink, L. X. Zheng, and T. Wu, APPLIED PHYSICS LETTERS 97, 203112(1-3), 2010.  

2.       “Initial Growth of Single Crystalline Nanowires: From 3D Nucleation to 2D Growth”, X. H. Huang, G. H. Li, G. Z. Sun, X. C. Dou, L. Li, and L. X. Zheng, NANOSCALE RESEARCH LETTERS 5, 1057-1062  ( June 2010).

3.       “Self-Built Strain in Large-Diameter Single-Walled Carbon Nanotubes”, Pingqi Gao, Lianxi Zheng, Qing Zhang, Shaoning Yuan, Yumeng You, Zexiang Shen, Deyan He, ACS NANO 4, 992-998 (Feb.2010).

4.       “Tuning Array Morphology for High-Strength Nanotube Fibers”, Lianxi zheng, Gengzhi Sun, Zhaoyao Zhan, SMALL 6, 132-137(Jan. 2010).

5.       “Towards Chirality-pure Carbon Nanotubes”, Yani Zhang and Lianxi Zheng, NANOSCALE, 2, 1919-1929 (2010).

 

2009

1.       “Kinetics Studies of Ultra-long Single-Walled Carbon Nanotubes”, Lianxi Zheng, Satishkumar B C, Pingqi Gao and Qing Zhang, JOURNAL OF PHYSICAL CHEMISTRY C 113, 1089610900 (July 2009).

 

Before joining NTU

1.       “Length-dependent thermal conductivity of an individual single-wall carbon nanotube”, Zhaoliang Wang, Dawei Tang, Xiaobo Li), Xinghua Zheng, Weigang Zhang, Lianxi Zheng, Yuntian T. Zhu, Aizi Jin, Haifang Yang, Changzhi Gu, Applied Physics Letters 91, 123119(2007).

2.       Ultrastrong, Stiff, and Lightweight Carbon-Nanotube Fibers”, Xiefei Zhang,  Qingwen Li, Terry G. Holesinger, Paul N. Arendt, Jianyu Huang, P. Douglas Kirven, Timothy G. Clapp, Raymond F. DePaula, Xiazhou Liao, Yonghao Zhao, Lianxi Zheng, Dean E. Peterson, and Yuntian Zhu, Advanced Materials 19, 4198(2007).

3.       “Carbon-Nanotube Cotton for Large-scale Fibres”, Lianxi Zheng, Xiefei Zhang, Qingwen Li, B.C. Satishkumar, Yuan Li, Yonghao Zhao, Quanxi Jia, Stephen K. Doorn, Dean E. Peterson and Yuntian T. Zhu, Advanced Materials 19, 2567(2007).

4.       “Structure-dependent electrical properties of Carbon nanotube fibers”, Qingwen Li, Yuan Li, Xiefei Zhang, Satishkumar B. Chikkannanavar, Yonghao Zhao, Andrea M. Dangelewicz, Lianxi Zheng, Stephen K.Doorn, Quanxi Jia, Dean E.Peterson,Paul N.Arendt,Yuntian Zhu, Advanced  Materials 19, 3358(2007).

5.       “Strong carbon nanotube fiber spun from long CNT array”, Xiefei Zhang,  Qingwen Li,  Yi Tu,  Yuan Li,  Yate Coulter, Lianxi Zheng,  Yonghao Zhao,  Quanxi Jia, Dean Peterson, and Yuntian Zhu, Small 3, 244(2007).

6.       “Sustained fast growth of long carbon nanotube arrays for fiber spinning”, Qingwen Li,  Xiefei Zhang,  Raymond DePaula,  Lianxi Zheng,  Yonghao Zhao, Liliana Stan,  Paul N. Arendt,  Dean  Peterson,  and Yuntian T. Zhu,  Advanced Materials 18, 3160(2006).

7.       “Drying induced upright sliding and reorganization of carbon nanotube arrays”, Li, QW; DePaula, R; Zhang, XF; Zheng, LX; Arendt, PN; Mueller, FM; Zhu, YT; Tu, Y, Nnanotechnology 17(18), 4533(2006).

8.       “Parametric study of carbon nanotube growth via cobalt-catalyzed ethanol decomposition”, Lianxi Zheng, Xiaozhou Liao, Yuntian Zhu, Materials Letters 60 (16), 1968(2006).

9.       “Raman Spectroscopy and imaging of ultralong carbon nanotubes”, Stephen K. Doorn, Lianxi Zheng, Michael J. O’Connell, Yuntian Zhu, Shaoming Huang, Jie Liu, J. PHYS. CHEM. B. 109, 3751(2005).

10.     “Raman Spectral Imaging of a Carbon Nanotube Intramolecular Junction”, Stephen K. Doorn, Michael J. O’Connell, Lianxi Zheng, Yuntian T. Zhu, Shaoming Huang, Jie Liu, Physical Review Letters, 94, 016802(2005).

11.     “Ultra-long single-wall carbon nanotubes”, Lianxi Zheng, Michael J. O’Connell, Stephen K. Doorn, Mark A. Hoffbauer, Bobbi J. Roop, Quanxi Jia, Robert C. Dye, Dean E. Peterson, Shaoming Huang, Jie Liu, and Yuntian T. Zhu, Nature Materials, 3, 673(2004).

12.     “A model for GaN ‘ghost’ islands”, M. H. Xie, L. X. Zheng, X. Q. Dai, H. S. Wu, S. Y. Tong, Surface Science, 558, 195(2004).

13.     “Evidence for a type-II band alignment between cubic and hexagonal phases of GaN”, Lu, XH; Yu, PY; Zheng, LX; Xu, SJ; Xie, MH; Tong, SY, Applied Physics Letters, 82, 1033(2003).

14.     “Direct observation of a Ga adlayer on a GaN(0001) surface by LEED Patterson inversion”, Xu, SH; Wu, HS; Dai, XQ; Lau, WP; Zheng, LX; Xie, MH; Tong, SY, Physical Review, B67, 5409(2003).

15.     Comparative study on the broadening of exciton luminescence linewidth due to phonon in zinc-blende and wurtzite GaN epilayers”, Xu, SJ; Zheng, LX; Cheung, SH; Xie, MH; Tong, SY; Yang, H, Applied Physics Letters, 81, 4389(2002).

16.     “Growth and Structural Properties of GaN Films on Flat and Vicinal SiC(0001) Substrates”, M.H. Xie, S.H. Cheung, L.X. Zheng, S.Y. Tong, B.S. Zhang, H. Yang, J. MOD. PHYS. B16, 165-172(2002).

17.     “Initial stage of GaN growth and its application to defect formation in films”, S. H. Cheung, L. X. Zheng, M. H. Xie, S. Y. Tong, and N. Ohtani, Physical Review, B64, 33304(2001).

18.     “Defect states in cubic GaN epilayer grown on GaAs by metalorganic vapor phase epitaxy”, Xu, SJ; Or, CT; Li, Q; Zheng, LX; Xie, MH; Tong, SY; Yang, H, Physica Status Solidi A-Applied Research, 188, 681(2001).

19.     “Current-induced migration of surface adatoms during GaN growth by molecular beam epitaxy, L.X. Zheng, M.H. Xie, S.J. Xu, S.H. Cheung, and S.Y. Tong, Journal of Crystal Growth, 227: 376-380 JUL 2001

20.     “Observation of “ghost” island and surfactant effect of surface gallium atoms during GaN growth by molecular beam epitaxy, L.X. Zheng, M.H. Xie, S.M. Seutter, S.H. Cheung, and S. Y. Tong, Physical Review Letters, 85, 2352 (2000).

21.     “Adsorption and desorption kinetics of gallium atoms on 6H-SiC(0001) surfaces”, L.X. Zheng, M.H. Xie, S.Y. Tong, Physical Review B, 61(7), 4890(2000).

22.     “Step bunching of vicinal GaN(0001) surfaces during molecular beam epitaxy, M.H. Xie, S.H. Cheung, L.X. Zheng, Y.F. Ng, H.S. Wu, N. Ohtani, S.Y. Tong, Physical Review B, 61(15), 9983(2000).

23.     Surface morphology of GaN: Flat versus vicinal surfaces ”, Xie, MH; Seutter, SM; Zheng, LX; Cheung, SH; Ng, YF; Wu, HS; Tong, SY, MRS INTERNET JOURNAL OF NITRIDE SEMICONDUCTOR RESEARCH; 2000; v.5, suppl.1, p.W3.29-

24.     “Reduction of extended defects (threading dislocations) in GaN grown on vicinal SiC(0001) by molecular beam epitaxy, X.H. Xie, L.X. Zheng, Y.F. Ng, Huasheng Wu, N. Ohtani, and S.Y. Tong, APPLIED PHYSICS LETTERS, 77, 1105 (2000).

25.     “Reflection high-energy electron diffraction intensity oscillations during growth of GaN(0001)A by plasma-assisted molecular beam epitaxy, S.M. Seutter, M.H. Xie, W.K. Zhu, L.X. Zheng, H.S. Wu, S.Y. Tong, SURFACE SCIENCE, 445(2-3), L71(2000).

26.     “Effect of buffer layer growth conditions on the secondary hexagonal phase content in cubic GaN films on GaAs(001) substrates”, X.L. Sun, H. Yang, Y.T. Wang, L.X. Zheng, D.P. Xu, D.G. Zhao, S.F. Li, Z.G. Wang, JOURNAL OF CRYSTAL GROWTH, 212(3-4), 397(2000).

27.     “Strain and photoluminescence characterization of cubic (In,Ga)N films grown on GaAs(001) substrates”, X.L. Sun, Y.T. Wang, H. Yang, L.X. Zheng, D.P. Xu, J.B. Li, Z.G. Wang, JOURNAL OF APPLIED PHYSICS, 87(8), 3711(2000).

28.     “The content calculation of hexagonal phase inclusions in cubic GaN films on GaAs(001) substrates grown by metalorganic chemical vapor deposition”, X. L. Sun, Y.T. Wang, H. Yang, J.B. Li, L.X. Zheng, D.P. Xu, Z.G. Wang, THIN SOLID FILMS, 368(2), 237(2000).

29.     “Investigation on the origin of wurtzite domains in thick cubic GaN using reactive ion etching”, D.P. Xu, H. Yang, S.M. Zhang, L.X. Zheng, D.G. Zhao, S.F. Li, Y.T. Wang, R.H. Wu,THIN SOLID FILMS, 372(1-2), 25(2000).

30.     “Anisotropic step-flow growth and island growth of GaN(0001) by molecular beam epitaxy, M.H. Xie, S.M. Seutter, W.K. Zhu, L.X. Zheng, H.S. Wu, S.Y. Tong, PHYSICAL REVIEW LETTERS, 82(13), 2749(1999).

31.     “Cubic-phase GaN light-emitting diodes”, H. Yang, L.X. Zheng, J.B. Li, X.J. Wang, D.P. Xu, Y.T. Wang, X.W. Hu, P.D. Han, APPLIED PHYSICS LETTERS, 74(17), 2498(1999).

32.     “Stability investigation of cubic GaN films grown by metalorganic chemical vapor deposition on GaAs (001)”, X.L. Sun, H. Yang, L.X. Zheng, D.P. Xu, J.B. Li, Y.T. Wang, G.H. Li, Z.G. Wang, APPLIED PHYSICS LETTERS, 74(19), 2827(1999).

33.     “Photovoltaic effect of cubic GaN/GaAs(100)”, D.G. Zhao, D.S. Jiang, H. Yang, L.X. Zheng, D.P. Xu, J.B. Li, Q.M. Wang, APPLIED PHYSICS LETTERS, 75(24), 3823(1999).

34.     “The Growth and interface properties of InAlGaAs/GaAs quantum wells”, L.X.Zheng, X.W.Hu, Han Qin, CHINESE JOURNAL OF SEMICONDUCTORS, 20(4), 265(1999).

35.     “Surface Morphology of GaN: Flat versua vicinal surfaces”, M.H. Xie, S.M. Seutter, L.X. Zheng, S.H. Cheung, Y.F. Ng, H. Wu, and S.Y. Tong, GaN AND RELATED ALLOYS, MRS, V595, W3.29.1, 1999.

36.     “Investigation on quality of cubic GaN/GaAs(100) by double-crystal X-ray diffraction”, D.P. Xu, Y.T. Wang, H. Yang, L.X. Zheng, J.B. Li, L.H. Duan, R.H. Wu, SCIENCE IN CHINA SERIES A-MATHEMATICS PHYSICS ASTRONOMY, 42(5), 517(1999).

37.     “Scanning electron microscope studies of cubic AlxGa1-xN films grown on GaAs(100) by metal organic vapor phase epitaxy (MOVPE)”, D.P. Xu, H. Yang, D.G. Zhao, J.B. Li, L.X. Zheng, Y.T. Wang, S.F. Li, L.H. Duan, R.H. Wu, JOURNAL OF CRYSTAL GROWTH, 203(1-2), 40(1999).

38.     “Annealing behavior of hexagonal phase content in cubic GaN thin films grown on GaAs (001) by MOCVD”, X.L. Sun, H. Yang, Y.T. Wang, G.H. Li, L.X. Zheng, J.B. Li, D.P. Xu, Z.G. Wang, SCIENCE IN CHINA SERIES A-MATHEMATICS PHYSICS ASTRONOMY, 42(7), 763(1999).

39.     “Strain analysis of cubic AlGaN/GaN grown on GaAs(001) substrate by MOCVD”, Da peng Xu, Hui Yang, Degang Zhao, Lianxi Zheng, Jianbin Li, Yutian Wang, Sunfeng LI, Ronghan Wu, CHINESE JOURNAL OF SEMICONDUCTORS, 20, 921(1999).

40.     “Investigation of optical properties of GaN films grown on GaAs(001) substrate by MOCVD”, X.L. Sun, Hui Yang, G.H. Li, L.X. Zheng, J.B. Li, Y.T. Wang, Z.G. Wang, CHINESE JOURNAL OF SEMICONDUCTORS, 20, 225(1999).

41.     Cubic InGaN grown by MOCVD”, Li, JB; Hui Yang; Zheng, LX; Xu, DP; Wang, YT,  MRS Internet Journal of Nitride Semiconductor Research, vol.4S1, 1999.

42.     “Gallium diffusion through cubic GaN films grown on GaAs(100) at high-temperature using low-pressure MOVPE”, D.P. Xu, H. Yang, L.X. Zheng, X.J. Wang, L.H. Duan, R.H. Wu, JOURNAL OF CRYSTAL GROWTH, 191(4), 646(1998).

43.     “Low-temperature growth of cubic GaN by metalorganic chemical-vapor deposition”, L.X. Zheng, H. Yang, D.P Xu, X.J. Wang, X.F. Li, J.B. Li, Y.T. Wang, L.H. Duan, X.W. Hu, THIN SOLID FILMS, 326(1-2), 251(1998).

44.     “Double crystal X-ray study on the properties of cubic GaN/GaAs(100)”, Da Peng  Xu, Y.T. Wang, Hui Yang, L.X. Zheng, J.B. Li, L.H. Duan, R.H. Wu, SINCE IN CHINA, 28, 1112(1998).

45.     “Carbon doped 980nm InGaAs strained quantum well lasers grown by metalorganic chemical-vapor deposition”, Yin, T ; Lian, P ; Xu, ZT ; Chen, CH ; Zhao, HD ; Zou, DS ; Chen, JX ; Gao, G ; Du, JY ; Tao, CB ; Shen, GD ; Lu, H ; Zheng, LX ; Chen, LH; PROCEEDINGS OF THE SOCIETY OF PHOTO-OPTICAL INSTRUMENTATION ENGINEERS (SPIE), v.3547, 48(1998).

46.     Determining the influence of growth deviation on mode wavelength of VCSEL by selective etching”, Zhang, Yi; Pan, Zhong; Du, Yun; Chen, Zhibiao; Zheng, Lianxi; Wu, Ronghan, Chinese Journal of Semiconductors; 1998; v.19, no.1, p.76-80

47.     The differences between the InyGa1-yAs/GaAs interface and GaAs/InyGa1-yAs”, Wang, XJ; Zheng, LX; Xiao, ZB; Zhang, ZP; Hu, XW; Wang, QM; MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS, v.442, 541(1997).

48.     Strain state measurement of InyGa1-y}As/AlzGa1-zAs/GaAs/AlzGa1-zAs double barrier quantum well material grown on InxGa1-xAs buffer layer”, Wang, Xiaojun; Zheng, Lianxi; Xiao, Zhibo; Wang, Yutian; Hu, Xiongwei; Wang, Qiming, Chinese Journal of Semiconductors; Feb 1997; v.18, no.2, p.85-90

49.     “High-power SQW lasers by MOCVD growth”, L.X. Zheng, Z.B. Xiao, Q. Han, C.Z. Jin, F. Zhou, C.H. Ma and X.W. Hu, Chinese Journal of Semiconductors, 17(5), 392(1996).

50.     “Characterization and improvement of GaAs layers grown on Si using an ultrathin a-Si film as a buffer layer”, M.S. Hao, C.L. Shao, T. Soga, T. Jimbo, M. Umeno, J.W. Liang, L.X. Zheng, Z.B. Xiao, J.F. Xiao, JAPANESE JOURNAL OF APPLIED PHYSICS PART 2-LETTERS, 35(8A), L960(1996).

51.     “Growth of GaAs on Si by using a thin Si film as buffer layer”, M.S. Hao, J.W. Liang, X.J. Jing, Y.T. Wang, L.S. Deng, Z.B. Xiao, L.X. Zheng, X.W. Hu, CHINESE PHYSICS LETTERS, 13(1), 42(1996).

52.     Two-dimensional quantum well wire semiconductor laser arrays”, Qian, Yi; Zhang, Jinming; Xu, Zuntu; Chen, Lianghui; Wang, Qiming; Zheng, Lianxi; Hu, Xiongwei, Chinese Journal of Semiconductors; Feb 1996; v.17, no.2, p.155-160

53.     Superlattice structure’s X-ray diffraction analyzing and structure parameters’s calculating”, L.X. Zheng, Y.T. Wang, Y. Zhuang, L.S. Deng, Z.B. Xiao, X.W. Hu, J.W. Liang, Chinese Journal of Luminescence, 16(2), 153(1995).

54.     “Photoluminescence spectrum study of the GaAs/Si epilayer grown by using a thin amorphous Si film as buffer layer”, M.S. Hao, J.W. Liang, L.X. Zheng, L.S. Deng, Z.B. Xiao, X.W. Hu, JAPANESE JOURNAL OF APPLIED PHYSICS PART 2-LETTERS, 34(7B), L900(1995).

55.     “High-power 2-dimensional quantum-wire laser arrays”, Y. Qian, Z.T. Xu, J.M. Zhang, L.H. Chen, Q.M. Wang, L.X. Zheng, X.W. Hu, ELECTRONICS LETTERS, 31(2), 102(1995).

56.     “Studying of GaAs quantum wire structures’ selective growth by MOCVD”, Z.C. Niu, L.X. Zheng, Z.B. Xiao, M.Q. Chen, F. Zhou, X. Wang, K. Pan, L. Li, CHINESE JOURNAL OF OPTICS, 24(Z1), 212(1995).

57.     “Low temperature PL studying of InGaAs/GaAs strained QW grown by MOCVD”, X.J. Wang, L.X. Zheng, X.W. Hu, W.R. Zhuang, Q.M. Wang, M.C. Huang, CHINESE JOURNAL OF LUMINESCENCE, 15(3), 190(1994).

58.     “Growth and optical properties of quantum wells and quantum wires by MOCVD on nonplanar substrate”, Y. Qian, W.H. Zheng, L.X. Zheng, X. Zhang, X.W. Hu, L.H. Chen, Q.M. Wang, CHINESE JOURNAL OF SEMICONDUCTORS, 15(4), 289(1994).