47,Shisheng Lin, Shengjiao Zhang, Xiaoqiang Li, Wenli Xu, Xiaodong Pi, Xiaoyi Liu, Fengchao Wang, Hengan Wu, and Hongsheng Chen, Quasi-Two-Dimensional SiC and SiC2: Interaction of Silicon and Carbon at Atomic Thin Lattice Plane, J. Phys. Chem. C, 119, 19772–19779, (2015)

46,S Lin, P Wang, X Li, Z Wu, Z Xu, S Zhang, W Xu, Gate tunable monolayer MoS2/InP heterostructure solar cells, Applied Physics Letters, 107, 153904, (2015)

45,Xiaoqiang Li, Wenchao Chen, Shengjiao Zhang, Zhiqian Wu, Peng Wang, Zhijuan Xu, Hongsheng Chen, Wenyan Yin, Huikai Zhong, Shisheng Lin*,18.5% efficient graphene/GaAs van der Waals heterostructure solar cell, Nano Energy,16, 310, (2015)

44,W. Chen, X. Li, Wen-Yan Yin, S. S. Lin, Z. Zhao, E. Li, and H. Zhou, “Modeling and simulation of graphene gated graphene-GaAs Schottky junction field effect solar cell for its performance enhancement,” IEEE Trans. Electron Devices, 62, 3760, (2015)

43,H. K. Zhong, Xiaoqiang Li, Zhiqian Wu, Shengjiao Zhang, Zhijuan Xu, Hongsheng, Chen, Shisheng Lin* Two dimensional graphene nanogenerator by coloumb dragging: Moving van der Waals heterostructure,Applied Physics Letters, 106, 243903, (2015)

42, P. Wang, X. Q. Li, Z. J Xu, Z. Q Wu, S. J. Zhang, W. L. Xu, H. K. Zhong, H. S Chen, E. P. Li, J. K. Luo, Q. K. Yu, S. S. Lin* Tunable graphene/indium phosphide heterostructure solar cells,Nano Energy, 13, 509–517, (2015)

41, B. Zheng, R. Zhang, M. Zhou, W. Zhang, S. S. Lin*, Z. Ni, H. Wang, F. Yu and H. Chen, Broadband subwavelength imaging using non-resonant metamaterials, Appl. Phys. Lett. 104, 073502 (2014)

40, H. L. Qian, Y. G. Ma, Q. Yang, B. G. Chen, Y. Liu, X. Guo, S. S. Lin, J. L. Ruan, X. Liu, L. M. Tong, Z. L. Wang, Electrical Tuning of Surface Plasmon Polariton Propagation in Graphene–Nanowire Hybrid Structure,ACS nano 8, 2584-2589 (2014)

39, B. G. Chen, C. Meng, Z. Y. Yang, W. Li, S. S. Lin, T. Y. Gu, X. Guo, D. L. Wang, S. L. Yu, C. W. Wong,L. M. Tong, Graphene coated ZnO nanowire optical waveguides, Optics Express, 22, 24276-24285 (2014)


38, H. Chen, Z. Wang, R. Zhang, H. Wang, S. S. Lin, F. Yu and H. O. Moser, A meta-substrate to enhance the bandwidth of metamaterials, Scientific Reports 4, 5264 (2014)

37, X. Q. Li, S. J. Zhang, P. Wang, H. K. Zhong, Z. Q. Wu, H. S. Chen, C. Liu, S. S. Lin*, High performance solar cells based on graphene-GaAs heterostructures, arXiv:1409.3500v2 (2014)

36, S. Xu, Y. Y. Jiang, H. Y. Xu, J. X. Wang, S. S. Lin, H. S. Chen and B. L. Zhang, Realization of deep subwavelength resolution with singular media, Scientific Reports 4, 5212 (2014)

35, Z. J. Wang, M. Zhou, X. Lin, H. X. Liu, H. P. Wang, F. X. Yu, S. S. Lin, E. P. Li, H. S. Chen, A circuit method to integrate metamaterial and graphene in absorber design, Optics Communications, 329, 76–80 (2014)

34, R. R. Zhang, X. Lin, L. Shen, Z. J. Wang, B. Zheng, S. S. Lin*, and H. S. Chen, Free-space carpet cloak using transformation optics and graphene, Optics Letters, 39(23), 6739-6742 (2014)

33, R. Wang, X. D. Pi, Z. Y. Ni, Y. Liu, S. S. Lin, M. S. Xu, D. R. Yang "Silicene oxides: formation, structures and electronic properties," Scientific Reports 3, 3507 2013.

32, Y. Yang, S. S. Lin, Z. Wang, H. Chen, H. Wang, and E. Li, "Three dimensional polyhedral invisible cloak consisting of homogeneous materials," Progress in Electromagnetic Research-PIER 142, 31-40, 2013.

31, D. Singh, AA. Narasimulu, L. Garcia-Gancedo, Y. Q. Fu, T. Hasan, S. S. Lin, J. Geng, G. Shao, J. K. Luo,Vertically aligned smooth ZnO nanorod films for planar device applications, J. Mater. Chem. C, 14, 2525, 2013

30, S. S. Lin*, B. G. Chen, W. Xiong, Y. Yang, L. M. Tong, Y. Xu, J. Luo. Raman G peak in ABA stacked trilayer graphene. arXiv:1207.2969v1.

29, X. Lin, S. S. Lin (Co-first author), Y. Xu*, A. A. Hakro, T. Hasan, B. L. Zhang, B. Yu, J. K. Luo, E. P. Li and H. S. Chen, Ab initio study of electronic and optical behavior of two-dimensional silicon carbide J. Mater. Chem. C, 1, 2131 (2013), Advance Article.

28, S. S. Lin*, B. G. Chen, W. Xiong, Y. Yang, H. P. He and J. Luo. Negative thermal quenching of photoluminescence in zinc oxide nanowire-core/graphene-shell complexes. Optics Express 20, A706 (2012).

27, S. S. Lin*, Robust low resistivity p-type ZnO:Na films after ultraviolet illumination: the elimination of grain boundaries. Applied Physics Letters 101, 122109, (2012).

26, S. S. Lin*, Light-emitting two-dimensional ultrathin silicon carbide, Journal of Physcial Chemistry C 116, 3951 (2012).

25, S. S. Lin*, B. G. Chen, W. Xiong, Y. Yang, H. P. He and J. Luo. Strong negative thermal quenching photoluminescence of ZnO nanowire-core/Graphene-shell complexes. Optics Express, 20, A706 (2012).

24, S. S. Lin*, Robust low resisitivity p-type ZnO:Na films after ultraviolet illumination: the elimination of grain boundaries. Applied Physics Letters, 101, 122109 (2012)

23, S. S. Lin*, B. G. Chen, C. T. Pan, S. Hu, P. Tian and L. M. Tong. Unintentional doping induced splitting of G peak in bilayer graphene, Applied Physics Letters 99, 233110, (2011).

22, H. P. He, S. S. Lin (Co-first author), G. D. Yuan, L. Q. Zhang, W. F. Zhang, L. B. Luo, Y. L. Cao, Z. Z. Ye,* S. –T. Lee* Single-crystalline p-type ZnO and ZnMgO nanowires via combination of thin-film and nano techniques. Journal of Physcial Chemistry C 115, 19018, (2011).

21, S. S. Lin, H. P. He, Y. F. Lu, Z. Z. Ye* Mechanism of Na doped p-type ZnO films: suppressing Na interstitials by codoping of H and Na with appropriate concentration. Journal of Applied Physics, 106, 093508 (2009).

20, S. S. Lin*, J. I. Hong, J. H. Song, Y. Zhu, H. P. He, Z. Xu, Y. G. Wei, Y. Ding, R. L. Snyder, Z. L. Wang* Phosphorus doped Zn1-xMgxO nanowire arrays, Nano letters 9, 3877 (2009).

19, S. S. Lin, J. H. Song, Y. F. Lu, Z. L. Wang* Identifying individual n- and p-type ZnO nanowires by the output voltage sign of piezoelectric nanogenerator. Nanotechnology (Cover Highlight) 20, 365703 (2009).

18, S. S. Lin, H. P. He, Z. Z. Ye*, B. H. Zhao, J. Y. Huang. Temperature-dependent photoluminescence and photoluminescence excitation of aluminum monodoped and aluminum-indium dual-doped ZnO nanowires Journal of Applied Physics 104, 114307 (2008).

17, S. S. Lin, Z. Z. Ye*, H. P. He, B. H. Zhao, L. P. Zhu, J. Y. Huang. Photoluminescence properties of ZnO nanoneedles grown by metal organic chemical vapor deposition. Journal of Applied Physics 104, 064311 (2008)

16, S. S. Lin, J. G. Lu, Z. Z. Ye*, H. P. He, X. Q. Gu, L. X. Chen, J. Y. Huang, B. H. Zhao. P-type behavior in Na-doped ZnO films and ZnO homojunction light-emitting diodes, Solid State Communications 148, 25 (2008)

15, H. P. He, Z. Z. Ye*, S. S. Lin, B. H. Zhao, J. Y. Huang, H. P. Tang. Negative thermal quenching behavior and long luminescence lifetime of surface-state related green emission in ZnO nanorods. Journal of Physical Chemistry C 112, 14262 (2008).

14, S. S. Lin, Z. Z. Ye*, J. G. Lu, H. P. He, L. X. Chen, X. Q. Gu, J. Y. Huang, L. P. Zhu, B. H. Zhao. Na doping concentration tuned conductivity of ZnO films via pulsed laser deposition and electroluminescence from ZnO homojunction on silicon substrate, Journal of Physics D-Applied Physics 41, 155114 (2008).

13, S. S. Lin, H. P. Tang, Z. Z. Ye*, H. P. He, Y. J. Zeng, B. H. Zhao, L. P. Zhu. Synthesis of vertically aligned Al-doped ZnO nanorods array with controllable Al concentration, Materials letters 62, 603 (2008).

12, S. S. Lin, Z. Z. Ye*, H. P. He, Y. J. Zeng, H. P. Tang, B. H. Zhao, L. P. Zhu. Catalyst-free synthesis of vertically aligned screw-shape InZnO nanorods array, Journal of Crystal Growth 306, 339 (2007).

11, Y. J. Zeng*, M. Menghini, D. Y. Li, S. S. Lin, Z. Z. Ye, J. Hadermann, T. Moorkens, J. W. Seo, J. P. Locquet, C. H. Van. Unexpected optical reponse of single ZnO nanowires probed using controllable electrical contacts. Physical Chemistry Chemical Physics, 13, 6931, (2011).

10, Y. J. Zeng*, S. S. Lin, A. volodin, Y. F. Lu, Z. Z. Ye, C. VH, Zero-dimensional field emitter based on ZnO quantum dots. Applied Physics Letters, 97, 143102, (2010).

9, J. B. Han, F. R. Fan, C. Xu, S. S. Lin, M. Wei, X. Duan, Z. L. Wang* ZnO nanotube-based dye-sensitized solar cell and its application in self-powered devices, Nanotechnology, 21, 405203, (2010).

8, Y. Shen, J. I. Hong, S. Xu, S. S. Lin, H. Fang, S. Zhang, Y. Ding, R. L. Snyder, Z. L. Wang*, A general Approach for fabricating Arc-Shaped Composite Nanowire Arrays by pulsed Laser deposition, Advanced Functional Materials 20, 703 (2010).

7, Z. Y. Gao, Y. Ding, S. S. Lin, Y. Hao, Z. L. Wang*, Phys. Status Solidi RRL, 3, 260 (2009).

6, Z. S. Zhang, J. Y. Huang, H. P. He, S. S. Lin, H. P. Tang, H. M. Lu, Z. Z. Ye, The influence of morphologies and doping of nanostructured ZnO on the field emission behaviors. Solid-State Electronics, 53, 578 (2009).

5, Y. Zhu, S. S. Lin, Y. Z. Zhang, Z. Z. Ye*, Y. F. Lu, J. G. Lu, B. H. Zhao. Temperature effect on the electrical, structural and optical properties of N-doped ZnO films by plasma-free metal organic chemical vapor deposition, Applied Surface Science, 255, 6201, 2009.

4, Z. Z. Ye*, S. S. Lin, H. P. He, X. Q. Gu, L. X. Chen, J. G. Lu, J. Y. Huang, L. P. Zhu, L. Wang, Y. Z. Zhang, X. H. Li, Room temperature blue-UV electroluminescence from ZnO light-emitting diodes involving Na-doped p-type ZnO and ZnO/ZnMgO Multi-quantum Wells. Journal of Semiconductors- in Chinese (Cover Highlight), 29, 1433 (2008).

3, S. S. Lin, H. P. Tang, Z. Z. Ye*, H. P. He, Y. J. Zeng, B. H. Zhao, L. P. Zhu. Fabrication and post-anneal activation of p-type ZnMgO:Li film using dc reactive magnetron sputtering, Materials Letters 62, 2554 (2008).

2, Z. Z. Ye*, Y. J. Zeng, Y. F. Lu, S. S. Lin, L. Sun, L. P. Zhu, B. H. Zhao. Donor/acceptor doping and electrical tailoring in ZnO quantum dots, Applied Physics Letter 91, 112110, 2007.

1, H. P. He, Z. Z. Ye*, S. S. Lin, H. P. Tang, Y. Z. Zhang, L. P. Zhu, J. Y. Huang, B. H. Zhao. Determination of free exciton energy in ZnO nanorods from photoluminescence excitation spectroscopy. Journal of Applied Physics 102, 013511, 2007.

 

46,S Lin, P Wang, X Li, Z Wu, Z Xu, S Zhang, W Xu, Gate tunable monolayer MoS2/InP heterostructure solar cells, Applied Physics Letters, 107, 153904, (2015)

45,Xiaoqiang Li, Wenchao Chen, Shengjiao Zhang, Zhiqian Wu, Peng Wang, Zhijuan Xu, Hongsheng Chen, Wenyan Yin, Huikai Zhong, Shisheng Lin*,18.5% efficient graphene/GaAs van der Waals heterostructure solar cell, Nano Energy,16, 310, (2015)

44,W. Chen, X. Li, Wen-Yan Yin, S. S. Lin, Z. Zhao, E. Li, and H. Zhou, “Modeling and simulation of graphene gated graphene-GaAs Schottky junction field effect solar cell for its performance enhancement,” IEEE Trans. Electron Devices, 62, 3760, (2015)

43,H. K. Zhong, Xiaoqiang Li, Zhiqian Wu, Shengjiao Zhang, Zhijuan Xu, Hongsheng, Chen, Shisheng Lin* Two dimensional graphene nanogenerator by coloumb dragging: Moving van der Waals heterostructure,Applied Physics Letters, 106, 243903, (2015)

42, P. Wang, X. Q. Li, Z. J Xu, Z. Q Wu, S. J. Zhang, W. L. Xu, H. K. Zhong, H. S Chen, E. P. Li, J. K. Luo, Q. K. Yu, S. S. Lin* Tunable graphene/indium phosphide heterostructure solar cells,Nano Energy, 13, 509–517, (2015)

41, B. Zheng, R. Zhang, M. Zhou, W. Zhang, S. S. Lin*, Z. Ni, H. Wang, F. Yu and H. Chen, Broadband subwavelength imaging using non-resonant metamaterials, Appl. Phys. Lett. 104, 073502 (2014)

40, H. L. Qian, Y. G. Ma, Q. Yang, B. G. Chen, Y. Liu, X. Guo, S. S. Lin, J. L. Ruan, X. Liu, L. M. Tong, Z. L. Wang, Electrical Tuning of Surface Plasmon Polariton Propagation in Graphene–Nanowire Hybrid Structure,ACS nano 8, 2584-2589 (2014)

39, B. G. Chen, C. Meng, Z. Y. Yang, W. Li, S. S. Lin, T. Y. Gu, X. Guo, D. L. Wang, S. L. Yu, C. W. Wong,L. M. Tong, Graphene coated ZnO nanowire optical waveguides, Optics Express, 22, 24276-24285 (2014)


38, H. Chen, Z. Wang, R. Zhang, H. Wang, S. S. Lin, F. Yu and H. O. Moser, A meta-substrate to enhance the bandwidth of metamaterials, Scientific Reports 4, 5264 (2014)

37, X. Q. Li, S. J. Zhang, P. Wang, H. K. Zhong, Z. Q. Wu, H. S. Chen, C. Liu, S. S. Lin*, High performance solar cells based on graphene-GaAs heterostructures, arXiv:1409.3500v2 (2014)

36, S. Xu, Y. Y. Jiang, H. Y. Xu, J. X. Wang, S. S. Lin, H. S. Chen and B. L. Zhang, Realization of deep subwavelength resolution with singular media, Scientific Reports 4, 5212 (2014)

35, Z. J. Wang, M. Zhou, X. Lin, H. X. Liu, H. P. Wang, F. X. Yu, S. S. Lin, E. P. Li, H. S. Chen, A circuit method to integrate metamaterial and graphene in absorber design, Optics Communications, 329, 76–80 (2014)

34, R. R. Zhang, X. Lin, L. Shen, Z. J. Wang, B. Zheng, S. S. Lin*, and H. S. Chen, Free-space carpet cloak using transformation optics and graphene, Optics Letters, 39(23), 6739-6742 (2014)

33, R. Wang, X. D. Pi, Z. Y. Ni, Y. Liu, S. S. Lin, M. S. Xu, D. R. Yang "Silicene oxides: formation, structures and electronic properties," Scientific Reports 3, 3507 2013.

32, Y. Yang, S. S. Lin, Z. Wang, H. Chen, H. Wang, and E. Li, "Three dimensional polyhedral invisible cloak consisting of homogeneous materials," Progress in Electromagnetic Research-PIER 142, 31-40, 2013.

31, D. Singh, AA. Narasimulu, L. Garcia-Gancedo, Y. Q. Fu, T. Hasan, S. S. Lin, J. Geng, G. Shao, J. K. Luo,Vertically aligned smooth ZnO nanorod films for planar device applications, J. Mater. Chem. C, 14, 2525, 2013

30, S. S. Lin*, B. G. Chen, W. Xiong, Y. Yang, L. M. Tong, Y. Xu, J. Luo. Raman G peak in ABA stacked trilayer graphene. arXiv:1207.2969v1.

29, X. Lin, S. S. Lin (Co-first author), Y. Xu*, A. A. Hakro, T. Hasan, B. L. Zhang, B. Yu, J. K. Luo, E. P. Li and H. S. Chen, Ab initio study of electronic and optical behavior of two-dimensional silicon carbide J. Mater. Chem. C, 1, 2131 (2013), Advance Article.

28, S. S. Lin*, B. G. Chen, W. Xiong, Y. Yang, H. P. He and J. Luo. Negative thermal quenching of photoluminescence in zinc oxide nanowire-core/graphene-shell complexes. Optics Express 20, A706 (2012).

27, S. S. Lin*, Robust low resistivity p-type ZnO:Na films after ultraviolet illumination: the elimination of grain boundaries. Applied Physics Letters 101, 122109, (2012).

26, S. S. Lin*, Light-emitting two-dimensional ultrathin silicon carbide, Journal of Physcial Chemistry C 116, 3951 (2012).

25, S. S. Lin*, B. G. Chen, W. Xiong, Y. Yang, H. P. He and J. Luo. Strong negative thermal quenching photoluminescence of ZnO nanowire-core/Graphene-shell complexes. Optics Express, 20, A706 (2012).

24, S. S. Lin*, Robust low resisitivity p-type ZnO:Na films after ultraviolet illumination: the elimination of grain boundaries. Applied Physics Letters, 101, 122109 (2012)

23, S. S. Lin*, B. G. Chen, C. T. Pan, S. Hu, P. Tian and L. M. Tong. Unintentional doping induced splitting of G peak in bilayer graphene, Applied Physics Letters 99, 233110, (2011).

22, H. P. He, S. S. Lin (Co-first author), G. D. Yuan, L. Q. Zhang, W. F. Zhang, L. B. Luo, Y. L. Cao, Z. Z. Ye,* S. –T. Lee* Single-crystalline p-type ZnO and ZnMgO nanowires via combination of thin-film and nano techniques. Journal of Physcial Chemistry C 115, 19018, (2011).

21, S. S. Lin, H. P. He, Y. F. Lu, Z. Z. Ye* Mechanism of Na doped p-type ZnO films: suppressing Na interstitials by codoping of H and Na with appropriate concentration. Journal of Applied Physics, 106, 093508 (2009).

20, S. S. Lin*, J. I. Hong, J. H. Song, Y. Zhu, H. P. He, Z. Xu, Y. G. Wei, Y. Ding, R. L. Snyder, Z. L. Wang* Phosphorus doped Zn1-xMgxO nanowire arrays, Nano letters 9, 3877 (2009).

19, S. S. Lin, J. H. Song, Y. F. Lu, Z. L. Wang* Identifying individual n- and p-type ZnO nanowires by the output voltage sign of piezoelectric nanogenerator. Nanotechnology (Cover Highlight) 20, 365703 (2009).

18, S. S. Lin, H. P. He, Z. Z. Ye*, B. H. Zhao, J. Y. Huang. Temperature-dependent photoluminescence and photoluminescence excitation of aluminum monodoped and aluminum-indium dual-doped ZnO nanowires Journal of Applied Physics 104, 114307 (2008).

17, S. S. Lin, Z. Z. Ye*, H. P. He, B. H. Zhao, L. P. Zhu, J. Y. Huang. Photoluminescence properties of ZnO nanoneedles grown by metal organic chemical vapor deposition. Journal of Applied Physics 104, 064311 (2008)

16, S. S. Lin, J. G. Lu, Z. Z. Ye*, H. P. He, X. Q. Gu, L. X. Chen, J. Y. Huang, B. H. Zhao. P-type behavior in Na-doped ZnO films and ZnO homojunction light-emitting diodes, Solid State Communications 148, 25 (2008)

15, H. P. He, Z. Z. Ye*, S. S. Lin, B. H. Zhao, J. Y. Huang, H. P. Tang. Negative thermal quenching behavior and long luminescence lifetime of surface-state related green emission in ZnO nanorods. Journal of Physical Chemistry C 112, 14262 (2008).

14, S. S. Lin, Z. Z. Ye*, J. G. Lu, H. P. He, L. X. Chen, X. Q. Gu, J. Y. Huang, L. P. Zhu, B. H. Zhao. Na doping concentration tuned conductivity of ZnO films via pulsed laser deposition and electroluminescence from ZnO homojunction on silicon substrate, Journal of Physics D-Applied Physics 41, 155114 (2008).

13, S. S. Lin, H. P. Tang, Z. Z. Ye*, H. P. He, Y. J. Zeng, B. H. Zhao, L. P. Zhu. Synthesis of vertically aligned Al-doped ZnO nanorods array with controllable Al concentration, Materials letters 62, 603 (2008).

12, S. S. Lin, Z. Z. Ye*, H. P. He, Y. J. Zeng, H. P. Tang, B. H. Zhao, L. P. Zhu. Catalyst-free synthesis of vertically aligned screw-shape InZnO nanorods array, Journal of Crystal Growth 306, 339 (2007).

11, Y. J. Zeng*, M. Menghini, D. Y. Li, S. S. Lin, Z. Z. Ye, J. Hadermann, T. Moorkens, J. W. Seo, J. P. Locquet, C. H. Van. Unexpected optical reponse of single ZnO nanowires probed using controllable electrical contacts. Physical Chemistry Chemical Physics, 13, 6931, (2011).

10, Y. J. Zeng*, S. S. Lin, A. volodin, Y. F. Lu, Z. Z. Ye, C. VH, Zero-dimensional field emitter based on ZnO quantum dots. Applied Physics Letters, 97, 143102, (2010).

9, J. B. Han, F. R. Fan, C. Xu, S. S. Lin, M. Wei, X. Duan, Z. L. Wang* ZnO nanotube-based dye-sensitized solar cell and its application in self-powered devices, Nanotechnology, 21, 405203, (2010).

8, Y. Shen, J. I. Hong, S. Xu, S. S. Lin, H. Fang, S. Zhang, Y. Ding, R. L. Snyder, Z. L. Wang*, A general Approach for fabricating Arc-Shaped Composite Nanowire Arrays by pulsed Laser deposition, Advanced Functional Materials 20, 703 (2010).

7, Z. Y. Gao, Y. Ding, S. S. Lin, Y. Hao, Z. L. Wang*, Phys. Status Solidi RRL, 3, 260 (2009).

6, Z. S. Zhang, J. Y. Huang, H. P. He, S. S. Lin, H. P. Tang, H. M. Lu, Z. Z. Ye, The influence of morphologies and doping of nanostructured ZnO on the field emission behaviors. Solid-State Electronics, 53, 578 (2009).

5, Y. Zhu, S. S. Lin, Y. Z. Zhang, Z. Z. Ye*, Y. F. Lu, J. G. Lu, B. H. Zhao. Temperature effect on the electrical, structural and optical properties of N-doped ZnO films by plasma-free metal organic chemical vapor deposition, Applied Surface Science, 255, 6201, 2009.

4, Z. Z. Ye*, S. S. Lin, H. P. He, X. Q. Gu, L. X. Chen, J. G. Lu, J. Y. Huang, L. P. Zhu, L. Wang, Y. Z. Zhang, X. H. Li, Room temperature blue-UV electroluminescence from ZnO light-emitting diodes involving Na-doped p-type ZnO and ZnO/ZnMgO Multi-quantum Wells. Journal of Semiconductors- in Chinese (Cover Highlight), 29, 1433 (2008).

3, S. S. Lin, H. P. Tang, Z. Z. Ye*, H. P. He, Y. J. Zeng, B. H. Zhao, L. P. Zhu. Fabrication and post-anneal activation of p-type ZnMgO:Li film using dc reactive magnetron sputtering, Materials Letters 62, 2554 (2008).

2, Z. Z. Ye*, Y. J. Zeng, Y. F. Lu, S. S. Lin, L. Sun, L. P. Zhu, B. H. Zhao. Donor/acceptor doping and electrical tailoring in ZnO quantum dots, Applied Physics Letter 91, 112110, 2007.

1, H. P. He, Z. Z. Ye*, S. S. Lin, H. P. Tang, Y. Z. Zhang, L. P. Zhu, J. Y. Huang, B. H. Zhao. Determination of free exciton energy in ZnO nanorods from photoluminescence excitation spectroscopy. Journal of Applied Physics 102, 013511, 2007.