ZnO纳米管的光学性质及其对甲基橙降解的光催化活性

催化学报 , 2009, 30(10): 1058-1062.

ZnO纳米管的光学性质及其对甲基橙降解的光催化活性

李长全 ^1, , 罗来涛 ^2, , 熊光伟 ^3,

1.南昌大学材料科学与工程学院,江西南昌330031;南昌大学应用化学研究所,江西南昌330031

2.南昌大学应用化学研究所,江西南昌330031

3.南昌大学应用化学研究所,江西南昌330031

基金项目: 高等学校博士学科点专项科研基金(20040403001) 江西教育厅科研基金(GJJ08021)

关键词：氧化锌 , 纳米管 , 纳米颗粒 , 甲基橙 , 降解 , 光催化活性

Optical Properties of ZnO Nanotubes and Their Photocatalytic Activity for Degradation of Methyl Orange

LI Changquan ^1, , LUO Laitao ^2, , XIONG Guangwei ^3,

1.南昌大学材料科学与工程学院,江西南昌330031;南昌大学应用化学研究所,江西南昌330031

2.南昌大学应用化学研究所,江西南昌330031

3.南昌大学应用化学研究所,江西南昌330031

Keywords： zinc oxide , nanotube , nanoparticle , methyl orange , degradation , photocatalytic activity

以十二烷基硫酸钠为模板剂采用水热法合成了ZnO纳米管,以尿素和ZnSO_4为原料制备了ZnO纳米颗粒,并应用透射电镜、x射线衍射、光致发射光谱、拉曼光谱、比表面积测定、傅里叶红外光谱和紫外-可见漫反射光谱等技术对样品进行了表征.结果表明,ZnO纳米管的比表面积较大,在λ≈650nm的可见光波段ZnO纳米管开始出现吸收峰,而ZnO纳米颗粒在可见光波段几乎没有吸收.ZnO纳米管和纳米颗粒在紫外光照射下均对甲基橙有降解作用,其中ZnO纳米管的光催化活性较高.随着催化剂用量的增加和光照时间的延长,甲基橙降解率逐渐提高;甲基橙浓度的增大使甲基橙降解率降低.

ZnO nanotubes were synthesized by the hydrothermal method using sodium dodecyl sulfate as the template, and ZnO nanopar-tides were prepared with urea and ZnSO_4 as raw materials. The optical properties and photocatalytic activity of ZnO nanotubes and nanopar-ticles were studied, and the samples were characterized by transmission electron microscopy, X-ray diffraction, photoluminescence spec-troscopy, Raman spectroscopy, specific surface area determination, Fourier transform infrared spectroscopy, and ultraviolet-visual diffuse reflection spectroscopy. The ZnO nanotubes had larger specific surface area than the ZnO nanoparticles. The absorption peak of ZnO nanotubes began to appear atλ≈650 nm, but the ZnO nanoparticles nearly had no absorptive capacity in the visible band. ZnO nanotubes and nanoparticles can degradate methyl orange under ultraviolet light, and the catalytic activity of ZnO nanotubes was greater than that of ZnO nanoparticles. With the increase in the catalyst amount and illumination time, the degradation rate of methyl orange increased. Increasing the methyl orange concentration reduced the degradation rate.

参考文献

[1]	张立德,张玉刚.非碳纳米管研究的新进展[J].物理,2005(03):191-198.
[2]	张青红,高濂,郑珊,孙静.制备均一形貌的长二氧化钛纳米管[J].化学学报,2002(08):1439-1444.
[3]	马江虹,翟玉春,田彦文.硫化物纳米管及其研究进展[J].微纳电子技术,2003(09):1-4.
[4]	Chakrabarti S;Dutta B K .[J].Journal of Hazardous Materials,2004,112:269.
[5]	Akyol A;Bayramoglu M .[J].Journal of Hazardous Materials,2005,114:241.
[6]	Comparelli R;Fanizza E;Curri M L;Cozzi P D Mascolo G Agostiano A .[J].Applied Catalysis B:Environmental,2005,60:1.
[7]	Xia Y N;Yang P D;Sun Y G;Wu Y Y Mayers B Gates B Yin Y D Kim F Yan Y Q .[J].Advanced Materials,2003,15:353.
[8]	万青;丰平;王太宏.[J].微纳米技术,2004(12):1.
[9]	赵金伟,袁敏,刘孝恒.强悬浮性纳米TiO2的制备、表征及光催化活性研究（Ⅱ）光催化活性研究[J].光谱学与光谱分析,2005(10):1677-1679.
[10]	Khodja A A;Sehili T;Pilichowski J F;Boule P .[J].Journal of Photochemistry and Photobiology A:Chemistry,2001,141:231.
[11]	Daneshvar N;Salari D;Khataee A R .[J].J Photochem PhotobiolA,2004,162:317.
[12]	陈建刚;郭常新;张琳丽;胡俊涛 .[J].发光学报,2006,27:50.
[13]	Decremps F;Pellicer-Porres J;Saitta A M;Chervin J C Polian A .[J].Physical Review B:Condensed Matter,2002,65:092101.
[14]	Zhang Sh L;Shao J;Hoi L S;Wu S N Zhu B F Fan S S Li H D Yu D P .[J].Physical Status Solidi C,2005,2:3090.
[15]	Kamar M S;Kim T Y;Kim J Y;Suh E K Nahm K S .[J].Physical Status Solidi C,2004,1:2554.
[16]	秦秀娟,邵光杰,刘日平,王文魁,姚玉书,孟惠民.高性能ZnO纳米块体材料的制备及其拉曼光谱学特征[J].物理学报,2006(07):3760-3765.
[17]	宋洋,阎研,邢英杰,俞大鹏,张树霖.ZnO纳米管的拉曼光谱学研究[J].光散射学报,2004(02):103-106.
[18]	Valenzuela M A;Bosch P;Jimenez-Becerrill J;Quiroz O Paez A I .[J].Journal of Photochemistry and Photobiology A:Chemistry,2002,148:177.
[19]	高利聪,贺英,周利寅.聚合物基ZnO纳米线的制备和生长机理研究[J].化学学报,2008(14):1713-1719.
[20]	方世杰,徐明霞,黄卫友,张玉珍.纳米TiO2光催化降解甲基橙[J].硅酸盐学报,2001(05):439-442.
[21]	Li X F;Lü K L;Deng K J;Tang J F Su R Sun J Chen L Q .[J].Materials Science and Engineering B,2009,158:40.

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