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Yinshu Wang, Wenjing Duan, Zhenglong Wu,Wenfeng Guo, Stability and Optical Properties of ZnO Nanoparticles Capped by ZnS, Integrated Ferroelectrics 144,141-147(2013).
L. S. Yan, J. Zhang, X. M. Zhou, X. X. Wu, J. Y. Lan , Y. S. Wang, G. Liu , J. G. Yu, L. J. Zhi. Crystalline phase-dependent photocatalytic water splitting for hydrogen generation on KNbO3 submicro-crystals. International Journal of Hydrogen Energy, 38(2013), 3554-3561.
L. S. Yan, W. Jiang, W. J. Duan, D. Zheng, Z. L. Wu, W. F. Guo, Y. S. Wang. Morphology Variation and Optical Properties of ZnO Nanostructures Grown Using Bio-Template. Journal of Nanoscience and Nanotechnology, 13(2013), 1304-1308.
Zhenglong Wu, Yanhui Wang, Jianguo Zhang, Yinshu Wang, Effects of Codoping Al3+ on Luminescence of ZnO: Eu and ZnO:Tb Thin-Films, Integrated Ferroelectrics, 146:161–167, (2013).
W. J. Duan, S. H. Lu, Z. L. Wu, Y. S. Wang, Size Effects on Properties of NiO Nanoparticles Grown in Alkalisalts, Journal of Physical Chemistry C, 116(49), pp 26043-26051.
Y. H. Wang ,W. J. Duan, Z. L. Wu, D. Zheng, X. W. Zhou, B. Y. Zhou, L. J. Dai, Y. S. Wang, Enormous enhancement of ZnO nanorod photoluminescence, J. Lumin. 132 (2012) 1885–1889.
Y. S. Wang, W. J. Duan, Z. L. Wu, L. J. Dai, B. Y. Zhou, B. K. Chen, and X. Zhang, Stability and Nonlinear Optical Properties of ZnO Nanoparticles , J. Nanosci. Nanotechnol. 11, 9877-9882 (2011).
H. Zhou, W. J. Duan, H. C. Yang, Z. L. Wu, and Y. S. Wang, Growth and Properties of Zn1-xCdxO and Zn1-xCdxO/ZnO Core/shell Nanoparticles, J. Nanosci. Nanotechnol. 11, 9865-9870 (2011).
W. J. Duan, H. Zhou, H. C. Yang, Z. L. Wu, D. Zheng, and Y. S. Wang ,Growth and Properties of ZnO/Zn1-xMgxO Core/Shell Nanoparticles, J. Nanosci. Nanotechnol. 11, 9871-9876 (2011).
Y. S. Wang, S. J. Lin, Q. H. Guo, B. K. Chen, and D. Zheng, CdO/ZnO Core/Shell Nanostructures Grown from Single Molecular Precursors, J. Nanosci. Nanotechnol. 10, 2208-2212 (2010).
X. B. Mao, H. C. Yang, X. M. Zhou, C. X. Wang, Y. S. Wang, Y. L. Yang, C. Wang, and G. Liu, Straight and branched goethite topology by oriented attachment at high pH, Cryst. Growth Des .2010, 10, 504-509.
H. C. Yang, X. B. Mao, Y. J. Guo, D. W. Wang, G. L. Ge, R. Yang, X. H. Qiu, Y. L. Yang, C. Wang, Y. S. Wang, and G. Liu, “Porous α-Fe2O3 nanostructures with branched topology: growth, formation mechanism, and properties,” CrystEngComm, 2010, 12, 1842–1849
H. C. Yang, X. M. Zhou, T. T. Tang, X. Y. Qi, C. X. Wang, J. Y. Lan, Y. S. Wang, Y. L. Yang, and G. Liu, Anisotropic growth of multitwinned goethite particles by oriented aggregation, CrystEngComm 2010, 12, 4007–4011.
Xuemei Zhou, Hongchao Yang, Chenxuan Wang, Xiaobo Mao, Yinshu Wang, Yanlian Yang, and Gang Liu, Visible-light induced photocatalytic degradation of rhodamine B on one-dimensional iron oxide particles, J. Phys. Chem. C 2010, 114, 17051–17061.
Yinshu Wang, Qihua Guo, Sanjin Lin, Binkun Chen, Dong Zheng, Growth and properties of ZnO/ZnS core/shell nanostructures, Journal of Physics: Conference Series 152 (2009) 012018.
Y. S. Wang, ZnO and MgxZn1-xO nanocrystals grown by non-hydrolytic route, Journal of Crystal Growth 304 (2007) 393–398.
Y. S. Wang, P. John Thomas, and P. O′Brien, Nanocrystalline ZnO with Ultraviolet Luminescence, J. Phys. Chem. B 110 (2006) 4099-4104.
Y. S. Wang, P. John Thomas, and P. O′Brien, Optical Properties of ZnO Nanocrystals Doped with Cd, Mg, Mn, and Fe Ions, J. Phys. Chem. B, 110 (2006) 21412-21415.
Y. S. Wang, ZnO nanocrystals grown from zinc ketoacidoximate single molecular precursor, Journal of Crystal Growth 291(2) (2006) 398-404.
P. J. Thomas, P. Christian, S. Daniels, Y. Li, Y. S. Wang, P. O′Brien, Nanorods of CoP, CdS, and ZnS, Pure And Applied Chemistry 78(9) (2006): 1651-1665.
C. H. Zhang, Y. S. Wang, K. Q. Chen, J. G. Sun, J. M. Quan and C. Q. Chen, A TEM study of cavity structures in a Fe-Cr-Mn alloy and A 316L stainless steel heavily irradiated with 92 MeV Ar ions, Materials Science Forum 475-479 (2005) 1459-1462.
Y. S. Wang, P. Sun, Y. H. Wang, R. Z. Wang, D. Zheng, Y. Li, Sharp photoluminescence of CdSeS nanocrystals embedded in silica glass, Appl. Phys. Lett. 82(1) 49 (2003).