Phenol degradation on Pr6O_(11) surface under UV-A light. Synergistic photocatalysis by semiconductors

C. Karunakaran; R. Dhanalakshmi

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Phenol degradation on Pr6O_(11) surface under UV-A light. Synergistic photocatalysis by semiconductors

机译：在UV-A光下Pr6O_（11）表面上的苯酚降解。半导体的协同光催化

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Phenol degrades on the surface of Pr6O_(11) an insulator, under UV-A light and the degradation rate increases linearly with phenol concentration and photon flux but decreases linearly with pH. The degradation efficiency is higher with UV-C light than with UV-A light. While TiO2, Fe2O3, CuO, ZnO, ZnS, Nb2O5 and CdO particles individually photocatalyze the degradation each semiconductor exhibits synergistic effect, an enhanced photodegradatian, when present along with Pr6O_(11) suggesting hole-transfer from illuminated semiconductors to phenol adsorbed on Pr6O_(11) during collision.

机译：苯酚在紫外线下，在绝缘体Pr6O_（11）的表面降解，降解速率随苯酚浓度和光子通量线性增加，而随pH线性下降。 UV-C光的降解效率高于UV-A光的降解效率。当TiO2，Fe2O3，CuO，ZnO，ZnS，Nb2O5和CdO颗粒分别光催化降解时，每种半导体均表现出协同效应，当与Pr6O_（11）一起存在时，光降解能力增强，这表明空穴从发光半导体转移到吸附在Pr6O _（（ 11）在碰撞中。

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《Radiation Physics and Chemistry》 |2009年第1期|共5页
作者
C. Karunakaran; R. Dhanalakshmi;
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正文语种 eng
中图分类光学;
关键词
Insulator; Semiconductor; Interparticle hole-transfer; Photocatalysis;

机译：绝缘体;半导体;粒子间空穴转移;光催化;

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1. Phenol degradation on Pr6O_(11) surface under UV-A light. Synergistic photocatalysis by semiconductors [J] . C. Karunakaran, R. Dhanalakshmi Radiation Physics and Chemistry . 2009,第1期

机译：在UV-A光下Pr6O_（11）表面上的苯酚降解。半导体的协同光催化
2. Photomineralization of phenol on Al₂O₃: synergistic photocatalysis by semiconductors [J] . Chockalingam Karunakaran, Ramamoorthy Dhanalakshmi, Paramasivam Gomathisankar Research on Chemical Intermediates . 2010,第4期

机译：Al _{2 O _{3 上苯酚的光矿化：半导体协同光催化}}
3. Photomineralization of phenol on Al2O3: synergistic photocatalysis by semiconductors [J] . Karunakaran C, Dhanalakshmi R, Gomathisankar P Research on Chemical Intermediates . 2010,第4期

机译：Al2O3上苯酚的光矿化：半导体的协同光催化
4. DEGRADATION OF PHENOL BY HETEROGENEOUS PHOTOCATALYSIS WITH TiO2-MODIFIED BLACK MUD CATALYSTS [C] . LOURENCO VS, ASENCIOS YJO AIChE Annual Meeting . 2018

机译：用TiO2改性黑泥催化剂的异质光催化通过异质光催化降解苯酚
5. Applications of semiconductor photocatalysis for both degradation of organics and hydrogen production. [D] . Balcerski, Bill. 2007

机译：半导体光催化在有机物降解和产氢中的应用。
6. Driving Surface Redox Reactions in Heterogeneous Photocatalysis:The Active State of Illuminated Semiconductor-Supported Nanoparticlesduring Overall Water-Splitting [O] . Bastian Mei, *, Kai Han, -1

机译：在非均相光催化中驱动表面氧化还原反应：半导体支撑的发光纳米粒子的活性状态在整体水分解过程中
7. Degradation of Hexacyanoferrate (III) from Gold Mining Wastewaters via UV-A/LED Photocatalysis Using Modified TiO2 P25 [O] . Augusto Arce-Sarria, Kevin Mauricio Aldana-Villegas, Luis Andres Betancourt-Buitrago, 2020

机译：通过使用改性TiO2 P25通过UV-A / LED光电催化从金矿废水中降解六氰基甲酸酯（III）
8. Photocatalysis on Modified Semiconductor Surfaces and on Bipolar Photoelectrodes [R] . Fox, M. A. 1987

机译：改性半导体表面和双极光电极上的光催化作用

Phenol degradation on Pr6O_(11) surface under UV-A light. Synergistic photocatalysis by semiconductors

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