镉掺杂氧化锌纳米花的制备及其光催化活性
翟英娇, 李金华, 陈新影, 宋星慧, 任航, 方铉, 方芳, 楚学影, 魏志鹏, 王晓华. 镉掺杂氧化锌纳米花的制备及其光催化活性[J]. 中国光学, 2014, 7(1): 124.
ZHAI Ying-jiao, LI Jin-hua, CHEN Xin-ying, SONG Xing-hui, REN Hang, FANG Xuan, FANG Fang, CHU Xue-ying, WEI Zhi-peng, WANG Xiao-hua. Synthesis and characterization of Cd-doped ZnO nanoflowers and its photocatalytic activity[J]. Chinese Optics, 2014, 7(1): 124.
[1] 韩世同,习海玲,史瑞雪,等.半导体光催化研究进展与展望[J].化学物理学报,2003,16(5): 339-349.
HAN SH T,XI H L,SHI R X,et al.. Prospect and progress in the semiconductor photocatalysis[J]. Chem. Phys.,2003,16(5): 339-349.(in Chinese)
[2] ZHANG Z Y,SHAO C L,LI X H,et al.. Electrospun nanofibers of ZnO-SnO2 heterojunction with high photocatalytic activity[J]. J. Phys. Chem. C,2010,114(17): 7920-7925.
[3] XIAO M W,WANG L S,WU Y D,et al.. Preparation and characterization of CdS nanoparticles decorated into titanate nanotubes and their photocatalytic properties[J]. Nanotechnology,2008,19 (1): 015706-1-7.
[4] YIN J,LIU Z G,LIU H,et al.. The epitaxial growth of wurtzite ZnO films on LiNbO3(0001) substrates[J]. J. Crystal Growth,2000,220: 281-285.
[5] LEE G H,YAMAMOTO Y,KOUROGI M,et al.. Blue shift in room temperature photoluminescence from photo-chemical vapor deposited ZnO films[J]. Thin Solid Films,2001,386: 117-120.
[6] CHEN G W,ZHU R. Silicon micromachined resonant accelerometer based on ZnO nanowire[J]. Opt. Precision Eng.,2009,17(6): 1279-1285.
[7] SUN T J,QIU J S,LIANG C H. Controllable fabrication and photocatalytic activity of ZnO nanobelt arrays[J]. J. Phys. Chem. C,2008,112(3): 715-721.
[8] PARK W I,KIM J S,YI G C,et al.. ZnO nanorod Logic circuits[J]. Adv. Mater.,2005,17(32): 1393-1397.
[9] KUO T J,LIN C N,KUO C L,et al.. Growth of ultralong ZnO nanowires on silicon substrates by vapor transport and their use as recyclable photocatalysts[J]. Chem. Mater.,2007,19(21): 5143-5147.
[10] GEORGEKUTTY R,SEERY M K,PILLAI S C. A highly efficient Ag-ZnO photocatalyst: synthesis, properties, and mechanism[J]. J. Phys. Chem. C,2008,112(35): 13563-13570.
[11] LI D M,LI J H,FANG X,et al.. Growth mechanism structural and optical properties of hexagonal cone-shaped ZnO nanostructure[J]. Chin. Lumin.,2010,31(1): 114-118.
[12] 程萍,顾明远,金燕苹.TiO2光催化剂可见光化研究进展[J].化学进展,2005,17(1): 8-14.
CHENG P,GU M G,JIN Y P. Recent progress in titania photocatalyst operating under visible light[J]. Prog. Chem.,2005,17(1): 8-14.(in Chinese)
[13] 陈崧哲,张彭义,祝万鹏,等.可见光响应光催化剂研究进展[J].化学进展,2004,16(4): 613-619.
CHEN S Z,ZHANG P Y,ZHU W P,et al.. Progress in visible light responding photocatalysts[J]. Prog. Chem.,2004,16(4): 613-619.(in Chinese)
[14] CHIOU J W,RAY S C,TSAI H M,et al.. Correlation between electronic structures and photocatalytic activities of nanocrystalline-(Au, Ag, and Pt) particles on the surface of ZnO nanorods[J]. J. Phys. Chem. C,2011,115: 2650-2655.
[15] WANG Y S,JOHN P,BRIEN P O. Optical properties of ZnO nanocrystals doped with Cd, Mg, Mn, and Fe ions[J]. J. Phys. Chem. B,2006,110(43): 21412-21415.
[16] ZHOU S M,MENG X M,ZHANG X H,et al.. Large-scale fabrication and characterization of Cd-doped ZnO nanocantilever arrays[J]. Micron,2005,36: 55-59.
[17] ZHOU S M,ZHANG X H,MENG X M,et al.. Fabrication of large-scale ultra-fine Cd-doped ZnO nanowires[J]. Mater. Research Bull.,2006,41: 340-346.
[18] YAKUPHANOGL F,ILICAN S,CAGLAR M,et al.. Microstructure and electro-optical properties of sol-gel derived Cd-doped ZnO films[J]. Superlattices and Microstructures,2010,47: 732-743.
[19] LI B X,WANG Y F. Facile synthesis and enhanced photocatalytic performance of flower-like zno hierarchical microstructures[J]. J. Phys. Chem. C,2010,114(2): 890-896.
[20] 兰飞飞,王金忠,王敦博,等.Cu掺杂ZnO纳米材料的制备及表征[J].发光学报,2013,34(2): 139-143.
[21] VIGIL O,VAILLANT L,CRUZ F,et al.. Spray pyrolysis deposition of cadmium-zinc oxide thin films[J]. Thin Solid Films,2000,361(362): 53-55.
[22] 杜鸿延,魏志鹏,孙丽娟,等.与掺杂浓度相关的ZnS: Mn纳米粒子的发光性质[J].中国光学,2013,6(1): 111-116.
[23] 吉列凤,王丹军,郭莉,等.钆、镉共掺纳米TiO2光催化剂的合成及其光催化性能研究[J].延安大学学报,2010,29(2):71-75.
JI L F,WANG D J,GUO L,et al.. Synthesis of Gd-Cd Co-doped nano Tio2 photocatalyst and its photocatalytic activity[J]. J. Yanan Universi,2010,29(2):71-75.(in Chinese)
[24] 陈航,邓宏,戴丽萍,等.掺Cd对ZnO薄膜光学性能的影响[J].人工晶体学报,2008,37(1): 213-217.
CHEN H,DENG H,DAI L P,et al.. Cd-doping efects on structure and optical properties of ZnO thin films[J]. J. Synthetic Crystals,2008,37(1): 213-217.(in Chinese)
[25] 罗添元,魏志鹏,李金华,等.Cd/ZnO纳米复合结构的制备、表征及其光催化活性的改善[J].发光学报,2011,32(7): 680-685.
[26] ZHAO L L,WANG J Y,BOUGHTON R I,et al.. The surface morphology and photoluminescence properties of ZnO crystals synthesized by flux method[J]. Chinese J. Luminescence,2012,33(9): 917-922.
[27] 徐志堃,赵东旭,孙兰兰,等.海胆状ZnO纳米线阵列的制备及其光学性能[J].发光学报,2012,33(9): 1001-1005.
[28] 孙晓绮,孟庆华,孟庆云.铕掺杂氧化锌纳米棒阵列材料的制备及光学性能研究[J].发光学报,2013,34(5): 573-578.
[29] 徐志堃,赵东旭,孙兰兰,等.ZnO薄膜的性质对水热生长ZnO纳米线阵列的影响[J].发光学报,2012,(5): 549-552.
XU ZH K,ZHAO D X,SUN L L,et al.. Influences of ZnO film characteristics on zno nanowire arrays prepared by hydrothermal method[J]. Chinese J. Luminescence,2012,(5): 549-552.(in Chinese)
[30] SONG X C,ZHENG Y F,LIU G,et al.. Photocatalytic activities of Cd-doped ZnWO4 nanorods prepared by a hydrothermal process[J]. J. Hazardous Materials,2010,179: 1122-1127.
翟英娇, 李金华, 陈新影, 宋星慧, 任航, 方铉, 方芳, 楚学影, 魏志鹏, 王晓华. 镉掺杂氧化锌纳米花的制备及其光催化活性[J]. 中国光学, 2014, 7(1): 124. ZHAI Ying-jiao, LI Jin-hua, CHEN Xin-ying, SONG Xing-hui, REN Hang, FANG Xuan, FANG Fang, CHU Xue-ying, WEI Zhi-peng, WANG Xiao-hua. Synthesis and characterization of Cd-doped ZnO nanoflowers and its photocatalytic activity[J]. Chinese Optics, 2014, 7(1): 124.