一步温和水热法制备具有改善光催化活性和稳定性的碳包覆CdS纳米粒子

催化学报 , 2015, (7): 1077-1085. doi: 10.1016/S1872-2067(15)60827-0

一步温和水热法制备具有改善光催化活性和稳定性的碳包覆CdS纳米粒子

邹帅 ^1, , 伏再辉 ^2, , 向超 ^3, , 吴文锋 ^4, , 汤森培 ^5, , 刘亚纯 ^6, , 尹笃林 ^7,

1.湖南师范大学化学化工学院; 石化新材料与资源精细利用国家地方联合工程实验室; 资源精细化与先进材料湖南省高校重点实验室; 化学生物学及中药分析教育部重点实验室，湖南长沙410081

2.湖南师范大学化学化工学院; 石化新材料与资源精细利用国家地方联合工程实验室; 资源精细化与先进材料湖南省高校重点实验室; 化学生物学及中药分析教育部重点实验室，湖南长沙410081

3.湖南师范大学化学化工学院; 石化新材料与资源精细利用国家地方联合工程实验室; 资源精细化与先进材料湖南省高校重点实验室; 化学生物学及中药分析教育部重点实验室，湖南长沙410081

4.湖南师范大学化学化工学院; 石化新材料与资源精细利用国家地方联合工程实验室; 资源精细化与先进材料湖南省高校重点实验室; 化学生物学及中药分析教育部重点实验室，湖南长沙410081

5.湖南师范大学化学化工学院; 石化新材料与资源精细利用国家地方联合工程实验室; 资源精细化与先进材料湖南省高校重点实验室; 化学生物学及中药分析教育部重点实验室，湖南长沙410081

6.湖南师范大学化学化工学院; 石化新材料与资源精细利用国家地方联合工程实验室; 资源精细化与先进材料湖南省高校重点实验室; 化学生物学及中药分析教育部重点实验室，湖南长沙410081

7.湖南师范大学化学化工学院; 石化新材料与资源精细利用国家地方联合工程实验室; 资源精细化与先进材料湖南省高校重点实验室; 化学生物学及中药分析教育部重点实验室，湖南长沙410081

基金项目: the Program for Science and Technol-ogy Innovative Research Team in Higher Educational Institutions of Hunan Province the Natural Science Fund of Hunan Province(10JJ2007,14JJ2148) the National Natural Science Fundation of China(20873040) the Specialized Research Fund for the Doctoral Program of Higher Education(20124306110005)

关键词：葡萄糖碳化 , 碳包覆的硫化镉 , 光催化降解 , 可见光 , 甲基橙

Mild, one-step hydrothermal synthesis of carbon-coated CdS nanoparticles with improved photocatalytic activity and stability

Keywords： Glucose carbonization , Carbon-coated cadmiun sulfide , Photo-oxidative degradation , Visible light irradiation , Methyl orange

首次报道在130oC低温条件下，以乙酸镉和葡萄糖分别作为镉源和碳源，硫脲同时充当硫源和葡萄糖水热碳化的催化剂，通过一步水热碳化法制备了碳包覆的CdS (CdS@C)纳米材料。与相同条件下制备的纯CdS相比，合成的CdS@C粒子具有更小的粒子尺寸、良好的分散性以及更均匀的粒子分布。而且，葡萄糖在水热碳化过程中能够促使CdS优先形成立方晶相。此外，粒子表面的碳物种能拓宽CdS的可见光吸收范围，稍微降低它的带隙能，减缓CdS的光生电子-空穴对的复合和光腐蚀。因此，它能改善CdS在可见光辐射下催化氧化降解甲基橙的活性和稳定性。

Carbon-coated CdS (CdS@C) nanoparticles were conveniently prepared by a one-step hydrothermal carbonization method at temperature as low as 130 °C, in which cadmium acetate and glucose were used as the cadmium and carbon sources, respectively, and thiourea was used as the sulfur source and catalyst for the hydrothermal carbonization of glucose. The prepared CdS@C particles possess a smaller size, better dispersion, and more uniform distribution than pure CdS particles prepared under the same conditions. Furthermore, the hydrothermal carbonization of glucose easily induces the prior formation of metastable cubic CdS crystals. In addition, the carbonaceous species coated on the surface of CdS expands the range of absorption light and slightly decreases the band gap of CdS, as well as reduces the recombination of the photogenerated electron-hole pairs of CdS and its photo-oxidative corrosion, which can improve the photocatalytic activity and stability of CdS for the photo-oxidative degradation of methyl orange in aqueous solution under visible light irradiation.

参考文献

[1]	Zhu L;Jo S B;Ye S;Ullah K Oh W C .[J].催化学报,2014,35:1825.
[2]	Li XY;Chen GH;Po-Lock Y;Kutal C .Photocatalytic oxidation of cyclohexane over TiO2 nanoparticles by molecular oxygen under mild conditions[J].Journal of Chemical Technology & Biotechnology,2003(12):1246-1251.
[3]	Almeida AR;Moulijn JA;Mul G .In situ ATR-FTIR study on the selective photo-oxidation of cyclohexane over anatase TiO2[J].The journal of physical chemistry, C. Nanomaterials and interfaces,2008(5):1552-1561.
[4]	Hamid S B A;Tan T L;Lai C W;Samsudin E M .[J].催化学报,2014,35:2014.
[5]	Lettmann C;Hildenbrand K;Kisch H;Macyk W Maier W F .[J].Applied Catalysis B:Environmental,2001,32:215.
[6]	Taranto J;Frochot D;Pichat P .[J].Industrial and Engineering Chemistry Research,2007,46:7611.
[7]	Khan Z;Chetia T R;Vardhaman A K;Barpuzary D Sastri C V Qureshi M .[J].RSC Adv,2012,2:12122.
[8]	Cao J;Sun J Z;Hong J;Li H Y Chen H Z Wang M .[J].Advanced Materials,2004,16:84.
[9]	Karan S;Mallik B .[J].J Phys Chem C,2007,111:16734.
[10]	Podborska A;Gawe?B;Pietrzak;Szymańska I B Jeszka J K?asocha W Szaci?owski K .[J].J Phys Chem C,2009,113:6774.
[11]	Wang S M;Liu P;Wang X X;Fu X Z .[J].LANGMUIR,2005,21:11969.
[12]	Li X L;Jia Y;Cao A Y .[J].ACS Nano,2010,4:506.
[13]	Cao M;Li L;Zhang B L;Huang J Tang K Cao H Sun Y Shen Y .[J].Journal of Alloys and Compounds,2012,530:81.
[14]	Yang H H;Kershaw S V;Wang Y;Gong X Z Kalytchuk S Rogach A L Teoh W Y .[J].J Phys Chem C,2013,117:20406.
[15]	Ferancová, A.;Rengaraj, S.;Kim, Y.;Labuda, J.;Sillanp??, M. .Electrochemical determination of guanine and adenine by CdS microspheres modified electrode and evaluation of damage to DNA purine bases by UV radiation[J].Biosensors & Bioelectronics: The International Journal for the Professional Involved with Research, Technology and Applications of Biosensers and Related Devices,2010(2):314-320.
[16]	Hu, Y.;Liu, Y.;Qian, H.;Li, Z.;Chen, J. .Coating colloidal carbon spheres with CdS nanoparticles: Microwave-assisted synthesis and enhanced photocatalytic activity[J].Langmuir: The ACS Journal of Surfaces and Colloids,2010(23):18570-18575.
[17]	严佳佳;王坤;许晖;钱静刘巍杨兴旺李华明.[J].催化学报,2013:34,1876.
[18]	米倩,陈带全,胡军成,黄正喜,李金林.氮掺杂石墨烯负载的硫化镉空心球纳米复合材料的光催化性能[J].催化学报,2013(11):2138-2145.
[19]	Kudo A;Miseki Y .[J].CHEMICAL SOCIETY REVIEWS,2009,38:253.
[20]	Silva L A;Ryu S Y;Choi J;Choi W Hoffmann M R .[J].J Phys Chem C,2008,112:12069.
[21]	Boxi S S;Paria S .[J].RSC Adv,2014,4:37752.
[22]	Luo M;Liu Y;Hu J C;Liu H Li J L .[J].ACS Appl Mater Interfaces,2012,4:1813.
[23]	Park C Y;Ghosh T;Meng Z D;Kefayat U Vikram N Oh W C .[J].催化学报,2013,34:711.
[24]	Kar A;Kundu S;Patra A .[J].RSC Adv,2012,2:10222.
[25]	Yan H J;Yang J H;Ma G J;Wu G P Zong X Lei Z B Shi J Y Li C .[J].Journal of Catalysis,2009,266:165.
[26]	Li, YY;Liu, JP;Huang, XT;Yu, JG .Carbon-modified Bi2WO6 nanostructures with improved photocatalytic activity under visible light[J].Dalton transactions: An international journal of inorganic chemistry,2010(14):3420-3425.
[27]	Ren WJ;Ai ZH;Jia FL;Zhang LZ;Fan XX;Zou ZG .Low temperature preparation and visible light photocatalytic activity of mesoporous carbon-doped crystalline TiO2[J].Applied Catalysis, B. Environmental: An International Journal Devoted to Catalytic Science and Its Applications,2007(3/4):138-144.
[28]	Ge S X;Jia H M;Zhao H X;Zheng Z Zhang L Z .[J].Journal of Materials Chemistry,2010,20:3052.
[29]	Hu Y;Gao X H;Yu L;Wang Y R Ning J Q Xu S J Lou X W .[J].ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2013,52:5636.
[30]	Xu C K;Killmeyer R;Gray M L;Khan S U M .[J].Applied Catalysis B:Environmental,2006,64:312.
[31]	Lee D K;Cho I S;Lee S;Bae S T Noh J H Kim D W Hong K S .[J].Materials Chemistry and Physics,2010,119:106.
[32]	Liang, H.-W.;Zhang, W.-J.;Ma, Y.-N.;Cao, X.;Guan, Q.-F.;Xu, W.-P.;Yu, S.-H. .Highly active carbonaceous nanofibers: a versatile scaffold for constructing multifunctional free-standing membranes[J].ACS nano,2011(10):8148-8161.
[33]	Hu B;Wang K;Wu L H;Yu S H Antonietti M Titiriciet M M .[J].Advanced Materials,2010,22:813.
[34]	Wang G X;Liu H;Liu J;Qiao S Z Lu G M Munroe P Ahn H .[J].Advanced Materials,2010,22:4944.
[35]	Sun X M;Li Y D .[J].ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2004,43:597.
[36]	Sasikala G.;Subramanian C.;Thilakan P. .Modification in the chemical bath deposition apparatus, growth and characterization of CdS semiconducting thin films for photovoltaic applications[J].Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion,2000(3):275-293.
[37]	Fu H B;Pan C S;Yao W Q;Zhu Y F .[J].Journal of Physical Chemistry B,2005,109:22432.
[38]	Weller H .[J].ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,1993,32:41.
[39]	Unni, C;Philip, D;Smitha, SL;Nissamudeen, KM;Gopchandran, KG .Aqueous synthesis and characterization of CdS, CdS:Zn2+ and CdS: Cu2+ quantum dots[J].Spectrochimica acta, Part A. Molecular and biomolecular spectroscopy,2009(4):827-832.
[40]	Shen S H;Guo L J;Chen X B;Ren F Mao S S .[J].Int JHydrogen Energy,2010,35:7110.
[41]	Yang F;Yan N N;Huang S;Sun Q Zhang L Z Yu Y .[J].J Phys Chem C,2012,116:9078.
[42]	Liu Y;Zhou M J;Hu Y;Qian H S Chen J F Hu X .[J].CRYSTENGCOMM,2012,14:4507.
[43]	Yu J G;Ma T T;Liu S W .[J].PhysChem Chem Phys,2011,13:3491.
[44]	Zhong J;Chen F;Zhang J L .[J].J Phys Chem C,2010,114:933.
[45]	Mau A W H;Huang C B;Kakuta N;Bard A J,Campion A,Fox M A,White J M,Webber S E .[J].Journal of the American Chemical Society,1984,106:6537.
[46]	Zhang L W;Fu H B;Zhu Y F .[J].Advanced Functional Materials,2008,18:2180.
[47]	Bao N Z;Shen L M;Takata T;Domen K Gupta A Yanagisawa K Grimes C A .[J].J Phys Chem C,2007,111:17527.
[48]	Peng Q;Dong Y J;Li Y D .[J].ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2003,42:3027.
[49]	Sakaki T;Shibata M;Miki T;Hirosue H Hayashi N .[J].Bioresour Tech-nol,1996,58:197.
[50]	Li H T;He X D;Kang Z H;Huang H Liu Y Liu J L Lian S Y Tsang C H A Yang X B Lee S T .[J].ANGEWANDTE CHEMIE-INTERNATIONAL EDITION,2010,49:4430.
[51]	Kang Z H;Tsang C H A;Wong N B;Zhang Z D Lee S T .[J].Journal of the American Chemical Society,2007,129:12090.
[52]	Kang Z H;Liu Y;Tsang C H A;Ma D D Fan X Wong N B Lee S T .[J].Advanced Materials,2009,21:661.
[53]	Wang W;Gu B H;Liang L Y;Hamilton W .[J].Journal of Physical Chemistry B,2003,107:3400.
[54]	Sato S .[J].LANGMUIR,1988,4:1156.
[55]	Li Y Y;Liu J P;Huang X T .[J].Nanoscale Res Lett,2008,3:365.
[56]	Liu Y;Yu Y X;Zhang W D .[J].Journal of Alloys and Compounds,2013,569:102.

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