广州化工
廣州化工
엄주화공
GUANGZHOU CHEMICAL INDUSTRY AND TECHNOLOGY
2015年
4期
71-73,120
,共4页
董继锋%陶红%庞涛%戴博琳%宋晓锋
董繼鋒%陶紅%龐濤%戴博琳%宋曉鋒
동계봉%도홍%방도%대박림%송효봉
介孔碳%石墨型氮化碳%光催化%2 ,4-氯酚
介孔碳%石墨型氮化碳%光催化%2 ,4-氯酚
개공탄%석묵형담화탄%광최화%2 ,4-록분
ordered mesoporous carbon%graphite carbon nitride%2,4-dichlorophenol%visible light
将有序介孔碳材料(OMC)按照一定的质量比例(0.01、0.02、0.04、0.08)加入石墨型氮化碳材料(g-C3N4)再低温煅烧获得了介孔碳/石墨型氮化碳复合材料(OMC/g-C3N4)。可见光下光催化降解2,4-氯酚的实验结果表明,有序介孔碳材料提高了复合材料的吸附和光催化性能,去除吸附作用后,样品0.04-OMC/g-C3 N4的光催化效率为纯氮化碳的3.68倍。降解产物的气相色谱-质谱分析结果表明2,4-氯酚的降解主要是被羟基自由基脱氯和甲基化成其他中间后再被逐步分解完全矿化, Langmuir-Hinshelwood模型分析结果表明其光催化降解过程符合为一级反应动力学。
將有序介孔碳材料(OMC)按照一定的質量比例(0.01、0.02、0.04、0.08)加入石墨型氮化碳材料(g-C3N4)再低溫煅燒穫得瞭介孔碳/石墨型氮化碳複閤材料(OMC/g-C3N4)。可見光下光催化降解2,4-氯酚的實驗結果錶明,有序介孔碳材料提高瞭複閤材料的吸附和光催化性能,去除吸附作用後,樣品0.04-OMC/g-C3 N4的光催化效率為純氮化碳的3.68倍。降解產物的氣相色譜-質譜分析結果錶明2,4-氯酚的降解主要是被羥基自由基脫氯和甲基化成其他中間後再被逐步分解完全礦化, Langmuir-Hinshelwood模型分析結果錶明其光催化降解過程符閤為一級反應動力學。
장유서개공탄재료(OMC)안조일정적질량비례(0.01、0.02、0.04、0.08)가입석묵형담화탄재료(g-C3N4)재저온단소획득료개공탄/석묵형담화탄복합재료(OMC/g-C3N4)。가견광하광최화강해2,4-록분적실험결과표명,유서개공탄재료제고료복합재료적흡부화광최화성능,거제흡부작용후,양품0.04-OMC/g-C3 N4적광최화효솔위순담화탄적3.68배。강해산물적기상색보-질보분석결과표명2,4-록분적강해주요시피간기자유기탈록화갑기화성기타중간후재피축보분해완전광화, Langmuir-Hinshelwood모형분석결과표명기광최화강해과정부합위일급반응동역학。
Abstact:OMC/g-C3 N4 composites were prepared by simple low-temperature thermal treatment of the mixture of Ordered mesoporous carbon and Graphited carbon nitride in varied mass ratio. The results of visible-light driven photodegradation of 2,4-DCP showed that the adsorptive and catalytic activities of OMC/g-C3 N4 composites were both greatly enhanced, photo-catalytic removel efficiency of sample 0.04-OMC/g-C3 N4 was 3.68 times of pure g-C3 N4 leaving out the adsorption. According to the results of GC-MS analysis of photo-degradation productions, 2,4-DCP were disintegrated into other intermediate products by the dechlorination and mathelation of generated hydroxyl radical, before being totally mineralized gradually, and the photocatalytic reaction were well fitted to the first order kinetics based on the Langmuir-Hinshelwood model.
