功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2013年
23期
3465-3469
,共5页
涂盛辉%梁海营%胡亚平%朱细平%彭海龙%杜军%万金保
塗盛輝%樑海營%鬍亞平%硃細平%彭海龍%杜軍%萬金保
도성휘%량해영%호아평%주세평%팽해룡%두군%만금보
水热法%复合材料%石墨烯%太阳光%产氢
水熱法%複閤材料%石墨烯%太暘光%產氫
수열법%복합재료%석묵희%태양광%산경
hydrothermal method%composite materials%graphene%sunlight%hydrogen production
采用水热法合成了石墨烯-TiO2纳米管复合材料,通过扫描电镜(SEM)、透射电镜(TEM)、X射线衍射(XRD)、傅里叶变换红外光谱(FT-IR)、紫外-可见漫反射(DRS)表征复合催化剂的微观形貌、结构和光学特性.以 H2 PtCl6为前驱体,对复合材料进行Pt负载,C2 H5 OH/H2 O 溶液为反应液,在紫外光和太阳光下考察其产氢活性,实验结果表明,石墨烯的负载量为5%(质量分数)时催化剂的产氢活性最高,紫外光下和太阳光下反应5 h,产氢量分别达到1069.299、3712.789μmol,远高于同等条件下P25的产氢活性.
採用水熱法閤成瞭石墨烯-TiO2納米管複閤材料,通過掃描電鏡(SEM)、透射電鏡(TEM)、X射線衍射(XRD)、傅裏葉變換紅外光譜(FT-IR)、紫外-可見漫反射(DRS)錶徵複閤催化劑的微觀形貌、結構和光學特性.以 H2 PtCl6為前驅體,對複閤材料進行Pt負載,C2 H5 OH/H2 O 溶液為反應液,在紫外光和太暘光下攷察其產氫活性,實驗結果錶明,石墨烯的負載量為5%(質量分數)時催化劑的產氫活性最高,紫外光下和太暘光下反應5 h,產氫量分彆達到1069.299、3712.789μmol,遠高于同等條件下P25的產氫活性.
채용수열법합성료석묵희-TiO2납미관복합재료,통과소묘전경(SEM)、투사전경(TEM)、X사선연사(XRD)、부리협변환홍외광보(FT-IR)、자외-가견만반사(DRS)표정복합최화제적미관형모、결구화광학특성.이 H2 PtCl6위전구체,대복합재료진행Pt부재,C2 H5 OH/H2 O 용액위반응액,재자외광화태양광하고찰기산경활성,실험결과표명,석묵희적부재량위5%(질량분수)시최화제적산경활성최고,자외광하화태양광하반응5 h,산경량분별체도1069.299、3712.789μmol,원고우동등조건하P25적산경활성.
Graphene-TiO2 nanotube composites were synthesized by hydrothermal method,the micromorpholo-gy,structure and optical properties of the composite catalysts were characterized by scanning electron microsco-py (SEM),transmission electron microscopy (TEM),X-ray diffraction (XRD),Fourier transform infrared (FT-IR),UV-Vis diffuse reflectance (DRS).Using H2 PtCl6 as precursor,Pt load of composite materials,the C2 H5 OH/H2 O solution as reaction liquid,to test the hydrogen production activity under UV light and sunlight irradition.The experimental results showed that the activity for hydrogen production was highest in which the content of grapheme was 5wt%.The amount of evolution H2 was 1 069.2988 μmol under the UV light and 3 712.789μmol under the sunlight irradtion for 5 h,whose activity for hydrogen production were much higher than that of P25 under same condition.
