华东师范大学学报(自然科学版)
華東師範大學學報(自然科學版)
화동사범대학학보(자연과학판)
JOURNAL OF EAST CHINA NORMAL UNIVERSITY(NATURAL SCIENCE)
2009年
5期
29-36,84
,共9页
董鹏飞%韩婧%邵启伟%成荣明
董鵬飛%韓婧%邵啟偉%成榮明
동붕비%한청%소계위%성영명
氧化锌纳米棒%PVC%复合材料%光催化
氧化鋅納米棒%PVC%複閤材料%光催化
양화자납미봉%PVC%복합재료%광최화
ZnO nanorod%PVC%composite%photocatalysis
用水热法制备了氧化锌纳米棒,在此基础上通过溶液共混制备了氧化锌纳米棒/PVC复合材料前驱体,适当温度下煅烧得到了氧化锌纳米棒/PVC复合材料.借助XRD,TEM,SEM,IR,UV-Vis和ESR等测试手段对氧化锌纳米棒及其复合材料进行了表征.以甲基橙为目标降解物,研究了氧化锌纳米棒和复合材料在可见光下的光催化性能和复合材料制备条件对光催化的影响,实验结果表明,复合材料的最佳制备条件为:氧化锌和PVC的质量比1:1,煅烧温度250℃,煅烧时间1 h.在光催化剂用量为0.5 g/L,甲基橙浓度为10 mg/L,采用15 W家用照明荧光灯做光源的光催化体系下.复合材料对甲基橙的降解率达到88%,表明了制备的氧化锌纳米棒/PVC复合材料具有良好的可见光光催化性能.
用水熱法製備瞭氧化鋅納米棒,在此基礎上通過溶液共混製備瞭氧化鋅納米棒/PVC複閤材料前驅體,適噹溫度下煅燒得到瞭氧化鋅納米棒/PVC複閤材料.藉助XRD,TEM,SEM,IR,UV-Vis和ESR等測試手段對氧化鋅納米棒及其複閤材料進行瞭錶徵.以甲基橙為目標降解物,研究瞭氧化鋅納米棒和複閤材料在可見光下的光催化性能和複閤材料製備條件對光催化的影響,實驗結果錶明,複閤材料的最佳製備條件為:氧化鋅和PVC的質量比1:1,煅燒溫度250℃,煅燒時間1 h.在光催化劑用量為0.5 g/L,甲基橙濃度為10 mg/L,採用15 W傢用照明熒光燈做光源的光催化體繫下.複閤材料對甲基橙的降解率達到88%,錶明瞭製備的氧化鋅納米棒/PVC複閤材料具有良好的可見光光催化性能.
용수열법제비료양화자납미봉,재차기출상통과용액공혼제비료양화자납미봉/PVC복합재료전구체,괄당온도하단소득도료양화자납미봉/PVC복합재료.차조XRD,TEM,SEM,IR,UV-Vis화ESR등측시수단대양화자납미봉급기복합재료진행료표정.이갑기등위목표강해물,연구료양화자납미봉화복합재료재가견광하적광최화성능화복합재료제비조건대광최화적영향,실험결과표명,복합재료적최가제비조건위:양화자화PVC적질량비1:1,단소온도250℃,단소시간1 h.재광최화제용량위0.5 g/L,갑기등농도위10 mg/L,채용15 W가용조명형광등주광원적광최화체계하.복합재료대갑기등적강해솔체도88%,표명료제비적양화자납미봉/PVC복합재료구유량호적가견광광최화성능.
Composite precursor was synthesized by mixing ZnO nanorod which was attained by hydrothermal method and polyvinyl chloride solution, ZnO nanorod/PVC composite was prepared by calcinating the precursor at appropriate temperature. Also, the composite was characterized by XRD, TEM, SEM, IR, UV-Vis and ESR. We studied on the photocatalytic property of ZnO nanorod and its composite under visible light, and evaluated the effect of preparations u-sing methyl orange(MO) as a probe reaction. The experiments showed the optimum conditions for preparing this composite are: the mass ratio of ZnO nanorod and PVC is 1:1, calcined temperature is 250 ℃ and calcined time is 1 h. Otherwise, the composite can degrade MO up to 88% under illumination with 15 W home light for 3 h when the concentration of MO is 10 mg/L, and the dose of photocatalyst is 0. 5 g/L. The results above indicated that ZnO nanorod/PVC composite has good photocatalytic property under visible light.
