Sr_(0.4)H_(1.2)Nb2O6·H2O nanopolyhedra: An efficient photocatalystt

Shijing Liang; Xiaowei Wang; Yan Chen

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Sr_(0.4)H_(1.2)Nb2O6·H2O nanopolyhedra: An efficient photocatalystt

机译：SR_（0.4）H_（1.2）NB2O6·H2O Nanopolyhedra：高效的光催化剂

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A photocatalyst Sr_(0.4)H_(1.2)Nb2O6·H2O (HSN) nanopolyhedra with high surface area has been successfully prepared by a simple hydrothermal method. The as-prepared samples were characterized by XRD, BET, SEM, TEM and XPS. The electronic structure of HSN determined by DFT calculations and electrochemical measurement revealed that HSN is an indirect-bandgap and n-type semiconductor, respectively. HSN samples showed high photocatalytic activities for both pure water splitting and the decomposition of benzene. The rate of H2 evolution over HSN was 15 times higher than that of P25 and the conversion ratio of benzene exceeded twice that of P25. The photocatalytic activities for water splitting can be greatly improved by loading various co-catalysts on HSN, such as Au, Pt, and Pd. The photocatalytic mechanisms were proposed based on the band structure and characterization results of the photocatalyst.

机译：通过简单的热液方法成功制备了具有高表面积的nb2o6·H2O（HSN）Nanopolyhedra的光催化剂SR_（0.4）H_（1.2）NB2O6·H2O（HSN）Nanopolyhedra。 XRD，BET，SEM，TEM和XPS表征了准备的样品。由DFT计算和电化学测量确定的HSN的电子结构表明，HSN分别是间接带gap和n型半导体。 HSN样品显示出高光催化活性，用于纯水分裂和苯的分解。 HSN上H2进化的速率比P25高15倍，苯的转化率超过了P25的两倍。通过在HSN上加载各种共催化剂，例如AU，PT和PD，可以极大地改善用于水分裂的光催化活性。基于光催化剂的带状结构和表征结果提出了光催化机制。

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《Nanoscale》 |2010年第10期|2262-2268|共7页
作者
Shijing Liang; Xiaowei Wang; Yan Chen;
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State Key Laboratory Breeding Base of Photocatalysis, Research Institute of Photocatalysis, Fuzhou University, Fuzhou, 350002, P. R China.;

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正文语种英语
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n-type semiconductors; water splitting; water calorimetrysurface areaBenzenesPure water;

机译：n型半导体;水分裂;水热量表面积benzenspure水;

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Sr_(0.4)H_(1.2)Nb2O6·H2O nanopolyhedra: An efficient photocatalystt

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