物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2013年
6期
1344-1350
,共7页
龙梅%丛野*%李轩科*%崔正威%董志军%袁观明
龍梅%叢野*%李軒科*%崔正威%董誌軍%袁觀明
룡매%총야*%리헌과*%최정위%동지군%원관명
水热%部分还原氧化石墨烯%二氧化钛%光催化%载体
水熱%部分還原氧化石墨烯%二氧化鈦%光催化%載體
수열%부분환원양화석묵희%이양화태%광최화%재체
Hydrothermal%Partial y reduced graphene oxide%Titanium dioxide%Photocatalysis%Support
采用水热法以Hummers氧化法制备的氧化石墨和钛酸四丁酯为原料制备了部分还原的氧化石墨烯/二氧化钛(RGO/TiO2)复合光催化剂,并研究了该复合材料在可见光以及紫外光下对亚甲基蓝的光催化降解活性.结果表明,通过改变反应温度和氧化石墨加入量可以调控TiO2的晶相组成及其在复合材料中的分散性;在水热反应过程中氧化石墨烯发生了部分还原;所制备的 RGO/TiO2复合材料的可见光和紫外光催化活性均高于纯TiO2;部分还原的氧化石墨烯在复合材料中担当载体和电子受体,同时可以使TiO2的初始吸收边向可见光区域红移,增强了TiO2在可见光区域的吸收,能有效提高对目标污染物的吸附性和光催化降解活性.
採用水熱法以Hummers氧化法製備的氧化石墨和鈦痠四丁酯為原料製備瞭部分還原的氧化石墨烯/二氧化鈦(RGO/TiO2)複閤光催化劑,併研究瞭該複閤材料在可見光以及紫外光下對亞甲基藍的光催化降解活性.結果錶明,通過改變反應溫度和氧化石墨加入量可以調控TiO2的晶相組成及其在複閤材料中的分散性;在水熱反應過程中氧化石墨烯髮生瞭部分還原;所製備的 RGO/TiO2複閤材料的可見光和紫外光催化活性均高于純TiO2;部分還原的氧化石墨烯在複閤材料中擔噹載體和電子受體,同時可以使TiO2的初始吸收邊嚮可見光區域紅移,增彊瞭TiO2在可見光區域的吸收,能有效提高對目標汙染物的吸附性和光催化降解活性.
채용수열법이Hummers양화법제비적양화석묵화태산사정지위원료제비료부분환원적양화석묵희/이양화태(RGO/TiO2)복합광최화제,병연구료해복합재료재가견광이급자외광하대아갑기람적광최화강해활성.결과표명,통과개변반응온도화양화석묵가입량가이조공TiO2적정상조성급기재복합재료중적분산성;재수열반응과정중양화석묵희발생료부분환원;소제비적 RGO/TiO2복합재료적가견광화자외광최화활성균고우순TiO2;부분환원적양화석묵희재복합재료중담당재체화전자수체,동시가이사TiO2적초시흡수변향가견광구역홍이,증강료TiO2재가견광구역적흡수,능유효제고대목표오염물적흡부성화광최화강해활성.
@@@@Partial y reduced graphene oxide/titanium dioxide (RGO/TiO2) composite was synthesized using tetrabutyl titanate and graphite oxide by a hydrothermal method. Photocatalytic activity of the material was evaluated by the degradation of methylene blue solution under visible light and UV light. The results suggest that the crystal phase and dispersion of titanium oxide in the composite can be control ed by varying the reaction temperature and amount of graphite oxide. Graphene oxide was partial y reduced in the hydrothermal reaction process. Photocatalytic activities of partial y reduced graphene oxide/titanium dioxide composites under both visible and UV light irradiation were higher than those of pure TiO2. Partial y reduced graphene oxide may act as a support and electron acceptor, and can also extend and enhance the band edge absorption of TiO2 into the visible light region, hence effectively enhancing the adsorbability and photocatalytic activity of TiO2.
