前驱物对室温固相反应合成CdS_(1-x)Se_x的影响

Effects of Precursors of Cd on the Synthesis of CdS_(1-x)Se_x

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摘要以CdO、CdC_3、CdCl_2作Cd的前驱物,分别与Na_2S·9H_2O和Se粉在室温条件下,采用固相研磨法制备CdS_(1-x)Se_x。XRD结果表明,合成产物与Cd的前驱物有关,即以CdO作Cd的前驱物时,得到的产物是CdS_(0.54)Se_(0.46);而以CdCO_3或CdCl_2作Cd的前驱物时,得到的产物是CdS_(0.75)Se_(0.25)。吸收谱(U-3310 Spectrophotometer)和荧光谱(AFS AFS-230E)的测试结果进一步证实了CdS_(0.54)Se_(0.46)和CdS_(0.75)Se_(0.25)产物,最后对室温固相反应合成CdS_(1-x)Se_x的机理进行了探讨。 A novel synthesis of CdS1-xSexsolid solution was presented, which is based on the room temperature reaction among CdO（ CdCO3, CdCl2 ）, Na2S-9H20 and Se powders. XRD shows that the composition of CdS1-xSex is related to the Cd sources. Namely, CdSo.54Seo.46 has been obtained from CdO precursor, and CdS0.75Se0.25 has been obtained from CdCO3 or CdC12 precursors. The optical properties of CdS0.54Se0.46 and CdS0.75Se0.25 were characterized by absorption spectrum and fluorescent. Based on the results, the solid phase reaction mechanism has been discussed.

作者陈玉凤欧阳毅

机构地区南昌大学化学系南昌工程学院

出处《硅酸盐通报》 CAS CSCD 北大核心 2007年第4期808-811,815,共5页 Bulletin of the Chinese Ceramic Society

基金江西省教育厅科学技术研究基金(赣教技字[2006]49号)

关键词室温固相反应 CdS1-xSex 研磨 room temperature solid solution solid phase reaction CdS1-xSex grinding

分类号 TQ171.73 [化学工程—玻璃工业]

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参考文献16

1Mane R S, Lokhande C D. Studies on chemically deposited cadminum sulphoselenide (CdSSE) films [ J ]. Thin solid films, 1997,304:56-60.
2Xu L, Wang L, Huang X F, et al. Surface passivation and enhanced quantum-size effect and photo stability of coated CdSe/CdS nanocrystals [ J ]. Physica E. 2000,8 : 129-133.
3Surendran S, Pokomy J, Jurek K, et al. Temperature dependence of the optical energy gap of CdSSe nanocrystals in glass [ J ]. Materials Science and Engineering B,2003,104:54-57.
4Huber P, Karl H, Lindner J K N, et al. Structural investigation of CdSSe-nanocrystals synthesized by ion-beam-implantation [ J ]. Nuclear Instruments and Methods in Physics Research B,2006,242 : 170-172.
5Premaratne K, Kuranthilaka S N A,Dharmadasa I M, et al. Electrodeposition using non-aqueous solution at 170°C and characterization of CdS, CdSSe and CdS compounds for use in graded band gap solar cells [ J ]. Renewable Energy,2003,29:549-557.
6Firth A V, Haggata S W. Production and Luminescent properties of CdSe and CdS nanoparticles-polymer composites [ J ]. Journal of Luminescence, 2004,109 : 163-172.
7Qian H F, Li L, Ren J C. One-step and rapid synthsis of high quality alloyed quantum dots ( CdSe-CdS ) in aqueous phase by microwave irradiation with controllable temperature [ J ]. Materials Research Bulletin,2005,40 : 1726-1736.
8Pagliara S, Sangaletti L, Depero L E, et al. Structural disorder in CdS, Se1-x films probed by microdiffraction experiments [ J ]. Applied Surface Science, 2002,186 : 527 -532.
9GrUn M, Gerlach H, Breitkopf T, et al. Epitaxial growth and photoluminescence of hexagonal CdS1-x Sex alloy films [ J ]. Journal of Crystal Growth, 1995,146:414--417.
10Apte S K, Kale B B, Sonawane R S, et al. Homogeneous growth of CdS/CdSSe nanoparticles in glass matrix [ J ]. Materials Letters ,2006,60:499- 503.

二级参考文献18

1闻万梁.一次烧成高温硒镉红釉的研制[J].陶瓷工程,1994,27(5):14-16. 被引量：4
2SUN Ling-Dong(孙聆东),XU Bo(徐波),FU Xue-Feng(付雪峰), et al. Zhongguo Kexue(B)(Science in China (Series B)), 2001,31(2):146～152
3Mitchell G P, Mirkin C A, Letsinger R L. J. Am. Chem. Soc.,1999,121(35):8122～8123
4Mattoussi H, Mauro J M, Goldman E R, et al. J. Am. Chem.Soc., 2000,122(49):12142～12150
5Wang W Z, Liu Z H, Zheng C L, et al. Mater. Lett., 2003,57:2755～2760
6Lorenz J K, Ellis A B. J. Am. Chem. Soc., 1998,120(42):10970～10975
7HOU Yi-Ming(周益明),XIN Xin-Quan(忻新泉).Wuji Huaxue Xuebao(Chinese J. Inorg. Chem.), 1999,15(3):273～292
8Nanda J, Kuruvilla B A, Samna D D. Adv. Mater., 2001,13:136～139
9LIU Shi-Hong(刘世宏),WANG Dang-Han(王当憨),PAN Cheng-Huang(潘承璜).X-ray Photoelectron Spectroscopy (X射线光电子能谱分析),Beijing:Science Press,1988.308
10Brus L J. Phys. Chem., 1986,90(2):2555～2560

共引文献16

1唐文华,张艾飞,邹洪涛,蒋天智,刘吉平.CdS纳米材料合成方法研究进展[J].贵州师范大学学报（自然科学版）,2006,24(2):119-124. 被引量：3
2李冲,陈旭东,罗伟昂,廖正福.CdS纳米粒子的制备与应用[J].广西师范学院学报（自然科学版）,2006,23(2):104-109. 被引量：4
3张伟,王翔,李红剑,许英梅.纳米硫化镉粉体制备技术的研究进展[J].无机盐工业,2007,39(2):12-14. 被引量：1
4马壮,魏宝佳,李智超.金属表面热化学反应法陶瓷涂层研究现状及工艺名称商榷[J].硅酸盐通报,2007,26(5):990-993. 被引量：29
5张保花,郭福强,陈惠敏.溶剂热合成CdS纳米棒形貌及微结构研究[J].四川大学学报（自然科学版）,2009,46(3):738-742. 被引量：2
6郭福强,张保花,陈惠敏.溶剂热合成CdS纳米棒及光学性能研究[J].人工晶体学报,2009,38(4):970-973. 被引量：6
7汤国虎.纳米硫化镉的最新研究进展[J].中国陶瓷,2009,45(11):10-13. 被引量：6
8杨红萍.固相法合成纳米硫化镉研究进展[J].辽宁化工,2009,38(12):922-923. 被引量：1
9杨海舰,钟昀,杨金兵.水分散性硫化镉纳米粒子的制备研究进展[J].化学研究与应用,2012,24(6):833-839. 被引量：1
10卢南,孙瑾,程兴,朱婷,张迪,张冉冉.CdS的制备及其光催化性能研究[J].广州化工,2012,40(22):74-76. 被引量：4

1基木格,曹佰来.三元化合物CdS_(1-x)Se_x量子点的制备与性能研究[J].安徽建筑工业学院学报（自然科学版）,2010,18(1):87-91.
2何志海,郭九皋,陈丰.某些含钕固体吸收谱的初步研究[J].矿物学报,1989,9(2):148-153.
3丁子庆,吴星,王其龙,马立国,王顺寿,王锦荣,高仲林,杨鹤峰.γ射线辐照玻璃着色的研究[J].核技术,1989,12(2):116-120.
4陈玉凤,彭绍琴,徐鹏,王勇,林宝启.低温固相法制备CdS_(1-x)Se_x颜料的研究[J].硅酸盐通报,2005,24(1):41-43. 被引量：4
5江浩川,孙洪维,干福熹.以 CdCl_2和 PbCl_2为基的玻璃的形成及其性质[J].材料科学进展,1991,5(1):64-69. 被引量：1
6李莉,王凤武,王雄,张祖德.CdSe纳米线的水热合成及表征[J].河南化工,2008,25(9):17-19. 被引量：2
7Gholam Reza KHAYATI,Seyed Hadi SHAHCHERAGHI,Vahid LOTFI,Esmael DAREZARESHKI.Reaction pathway and kinetics of CdO nanoparticles prepared from CdCO_3 precursor using thermal decomposition method[J].Transactions of Nonferrous Metals Society of China,2016,26(4):1138-1145.
8茅森,林福成,孟志葱,曾和平.掺富勒烯光学玻璃的吸收光谱[J].光学学报,1994,14(4):445-446.
9王建设,廖森,宋宝玲,孙雅博.室温固相法合成ZnCO_3及其自晶化特征[J].过程工程学报,2005,5(6):644-647. 被引量：10
10史苏华,张岩,邹炳锁,肖良质.微乳液法合成单分散Co_2O_3超微粒子及其表征[J].吉林大学自然科学学报,1991(4):78-82. 被引量：3

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前驱物对室温固相反应合成CdS_(1-x)Se_x的影响

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