高效BiVO4基光阳极的制备及其光电化学水分解行为研究

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1、PreparationofBiVO4-basedphotoanodesandtheirhighlyefficientphotoelectrochemicalwatersplittingbehaviorCandidate:XiaorongLiangAdvisor:Prof.ChangMingLiFacultyofMaterialsandEnergy,SouthwestUniversity,ChongqingMay,2018目录目录摘要....................................................

2、.....................................................................................IABSTRACT.............................................................................................................................III第1章绪论...........................................

3、...................................................................................11.1引言..................................................................................................................................11.2光电化学水分解基本原理....................................

4、..........................................................21.2.1基本原理...................................................................................................................21.2.2光电化学水分解电极过程......................................................................

5、.................31.2.3性能测量与分析.......................................................................................................51.3光电化学中的半导体材料改性......................................................................................61.3.1形貌结构........................

6、...........................................................................................61.3.2化学组份...................................................................................................................71.4BiVO4光阳极材料研究进展....................................

7、.......................................................91.4.1BiVO4晶体、电子和光学性质................................................................................91.4.2BiVO4电极光电催化机制......................................................................................111.4.3Bi

8、VO4电极优缺点及挑战......................................................................................121.4.4提高BiVO