Coating Polymeric Carbon Nitride Photoanodes on Conductive Y:ZnO Nanorod Arrays for Overall Water Splitting

Fang Yuanxing; Xu Yuntao; Li Xiaochun; Ma Yiwen; Wang Xinchen

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Coating Polymeric Carbon Nitride Photoanodes on Conductive Y:ZnO Nanorod Arrays for Overall Water Splitting

机译：导电Y的聚合物碳氮化碳含量：ZnO Nanorod阵列进行整体水分裂

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Polymeric carbon nitride (PCN) photosensitizers are proposed replacements for their inorganic counterparts in solar-to-fuel conversion via photoelectrochemical water splitting. However, intense charge recombination, primarily because of surface defects, limits the use of PCN in PEC systems. Now, photoanodes are designed by coating PCN films onto highly conductive yttrium-doped zinc oxide (Y:ZnO) nanorods (NRs) serving as charge collectors. The generation of charge carriers can therefore be promoted by this typeII alignment. The charge collectors would be kept nearby for charge separation and transport to be used in the interfacial redox reactions. The photocurrent density of the polymer electrode is improved to 0.4mAcm(-2) at 1.23V vs. the reversible hydrogen electrode in a Na2SO4 electrolyte solution under AM1.5 illumination. The result reveals a more than 50-fold enhancement over the PCN films achieved by powder; the efficiency can be preserved at 95% for 160minutes.

机译：通过光电化学水分解，将聚合物碳氮化物（PCN）光敏剂提出了其在太阳能转换中的无机对应物的替代品。然而，强烈的电荷重组，主要是因为表面缺陷，限制了PEC系统中PCN的使用。现在，通过将PCN薄膜涂覆到用作电荷收集器的高导电钇掺杂的氧化锌（Y：ZnO）纳米棒（NRS）上，设计了光桥。因此，可以通过这种TypeII对准来促进电荷载波的产生。收费收集器将保留在附近进行电荷分离和运输以用于界面氧化还原反应。在AM1.5照明下，聚合物电极的光电流密度在1.23V与1.23V Vs中的0.4macM（-2）。结果揭示了通过粉末实现的PCN薄膜增强超过50倍; 效率可保持在95％以获得160分钟。

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来源
《Angewandte Chemie》 |2018年第31期|共5页
作者
Fang Yuanxing; Xu Yuntao; Li Xiaochun; Ma Yiwen; Wang Xinchen;
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作者单位

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Coll Chem Fuzhou 350002 Fujian Peoples R China;

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Coll Chem Fuzhou 350002 Fujian Peoples R China;

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Coll Chem Fuzhou 350002 Fujian Peoples R China;

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Coll Chem Fuzhou 350002 Fujian Peoples R China;

Fuzhou Univ State Key Lab Photocatalysis Energy &

Environm Coll Chem Fuzhou 350002 Fujian Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
carbon nitride; charge separation; defects; electron collectors; photoelectrochemical water splitting;

机译：碳氮化物;电荷分离;缺陷;电子收集器;光电化学水分裂;

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专利

1. Coating Polymeric Carbon Nitride Photoanodes on Conductive Y:ZnO Nanorod Arrays for Overall Water Splitting [J] . Fang Yuanxing, Xu Yuntao, Li Xiaochun, Angewandte Chemie . 2018,第31期

机译：导电Y的聚合物碳氮化碳含量：ZnO Nanorod阵列进行整体水分裂
2. Tantalum Nitride Nanorod Arrays: Introducing Ni-Fe Layered Double Hydroxides as a Cocatalyst Strongly Stabilizing Photoanodes in Water Splitting [J] . Wang Lei, Dionigi Fabio, Nhat Truong Nguyen, Chemistry of Materials: A Publication of the American Chemistry Society . 2015,第7期

机译：氮化钽纳米棒阵列：引入Ni-Fe层状双氢氧化物作为助催化剂，在分水过程中具有强稳定性
3. A conductive ZnO-ZnGaON nanowire-array-on-a-film photoanode for stable and efficient sunlight water splitting [J] . Miao Zhong, Yanhang Ma, Peter Oleynikov, Energy & environmental science . 2014,第5期

机译：导电性ZnO-ZnGaON纳米膜阵列光电阳极，用于稳定高效地分解阳光
4. Surface Modification of α-Fe_2O_3 Nanorod Array Photoanodes for Improved Light-Induced Water Splitting [C] . Shaohua Shen, Coleman X. Kronawitter, Jiangang Jiang, MRS spring meeting . 2012

机译：α-Fe_2O_3纳米棒阵列光阳极的表面改性，以改善光诱导的水分解
5. Ta3N5/Polymeric g-C3N 4 as Hybrid Photoanode for Solar Water Splitting [D] . Liu, Mengdi. 2018

机译：Ta3N5 /聚合物g-C3N 4作为混合光阳极用于太阳能水分解
6. CdS nanoparticles sensitization of Al-doped ZnO nanorod array thin film with hydrogen treatment as an ITO/FTO-free photoanode for solar water splitting [O] . Chih-Hsiung Hsu, Dong-Hwang Chen 2012

机译：掺铝的ZnO纳米棒阵列薄膜的CdS纳米粒子敏化和氢处理作为无ITO / FTO的光阳极用于太阳能水分解
7. Photoelectrochemical water splitting under visible light over anti-photocorrosive In2O3-coupling ZnO nanorod arrays photoanode [O] . Zhang, Yan, Zhang, Jinqiu, Nie, Mengyan, 2015

机译：可见光下光电化学水分解在抗光致In2O3偶联ZnO纳米棒阵列光阳极上

Coating Polymeric Carbon Nitride Photoanodes on Conductive Y:ZnO Nanorod Arrays for Overall Water Splitting

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