[1] CANHAM L T. Silicon quantum wire array fabrication by electrochemical and chemical dissolution of wafers[J]. Applied Physics Letters, 1990, 57(10): 1046-1048.
[2] YAN D T, GALKIN N G. On the mechanism of luminescence from porous silicon nanostructures[J]. Optics & Spectroscopy, 2015, 119(5): 766-769.
[3] RITTENHOUSE T L, BOHN P W, HOSSAINT K, et al. Surface-state origin for the blueshifted emission in anodically etched porous silicon carbide[J]. Journal of Applied Physics, 2004, 95(2): 490-496.
[4] BRANDT M S, FUCHS H D, STUTZMANN M, et al. The origin of visible luminescence from “porous silicon”: A new interpretation[J]. Solid State Communications, 1992, 81(4): 307-312.
[5] CHIHO H, AKIHIKO T, MASATERU T, et al. Kinetic and thermodynamic control by chemical bond rearrangement on a Si(001) surface[J]. Angewandte Chemie International Edition, 2004, 43(11): 1349-52.
[6] XU Dong-sheng, GUO Lin, GUI Lin-lin, et al. Optical properties and luminescence mechanism of oxidized free-standing porous silicon films[J]. Journal of Applied Physics, 1999, 86(4): 2066-2072.
[7] LI Chun-liu, LI Zhi-xi, XUE Xiao-yu, et al. Holographic properties of modified and unmodified Fe3O4-nanopaticle dispersed acrylate photopolymer[J]. Acta Photonica Sinica, 2014, 43(6): 0616006.
[9] AMDOUNI S, RAHMANI M, ZAIBI M A, et al. Enhancement of porous silicon photoluminescence by electroless deposition of nickel[J]. Journal of Luminescence, 2015, 157: 93-97.
[10] CAI Hong, SHEN Hong-lie, LU Lin-feng, et al. Properties of the ZnO/PS nanocomposites obtained by sol-gel method[J].Optoelectronics and Advanced Materials-Rapid Communications, 2010, 4(5):650-653.
[11] HU Xiao-hua, SHI Qiong-lin, WEI Xi-wen, et al. Theoretical study on the performance of porous silicon explosion[J]. Journal of Functional Materials, 2012, 43(21): 3006-3009.
[13] YUE Zhi-hao, SHEN Hong-lie, ZHANG Lei, et al. Heterojunction solar cells produced by porous silicon layer transfer technology[J]. Applied Physics A: Materials Science & Processing, 2012, 108(4): 929-934.
[14] THAKUR M, PERMITES R B, NITTA N, et al. Freestanding macroporous Silicon and pyrolyzed polyacrylonitrile as a composite anode for lithium ion batteries[J]. Chemistry of Materials, 2012, 24(15): 2998-3003.
[15] HAN Jun-feng, LIAO Cheng, JIANG Tao, et al. An optimized multilayer structure of CdS layer for CdTe solar cells application[J]. Journal of Alloys & Compounds, 2011, 509(17): 5285-5289.
[16] ALEXANDER J N, HIGASHIYA S. Deposition and characterization of cadmium sulfide (CdS) by chemical bath deposition using an alternative chemistry cadmium precursor[J]. Solar Energy Materials & Solar Cells, 2014, 125(125): 47-53.
[17] CAO M, SUN Y, WU J, et al. Effects of cadmium salts on the structure, morphology and optical properties of acidic chemical bath deposited CdS thin films[J]. Journal of Alloys & Compounds, 2010, 508(2): 297-300.
[18] XIONG Zhi-hua, ZHONG Du-du, WANG Jian-mn, et al. Density functional crystal structure and electronic structure calculations on Co and Ti-doped CdS[J]. Acta Photonica Sinica, 2007, 36(suppl): 99-102.
[19] UDA H, YONEZAWA H, OHTSUBO Y, et al. Thin CdS films prepared by metalorganic chemical vapor deposition[J]. Solar Energy Materials & Solar Cells, 2003, 75(s1-2): 219-226.
[20] ABDELKADER O H, SHALTOUT A A. Characterization and antibacterial capabilities of nanocrystalline CdS thin films prepared by chemical bath deposition[J]. Materials Science in Semiconductor Processing, 2015, 35: 132-138.
[21] GUO Chen-hua. Photoluminence properties of complex of porous silicon and Zno and CdS nanometer particles[D]. Shandong Normal Univesity, 2003.