Solar Hydrogen Production from Zinc Telluride Photocathode Modified with Carbon and Molybdenum Sulfide

Jang Youn Jeong; Lee Jaehyuk; Lee Jinwoo; Lee Jae Sung

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Solar Hydrogen Production from Zinc Telluride Photocathode Modified with Carbon and Molybdenum Sulfide

机译：碳硫化钼修饰的碲化锌光阴极的太阳能制氢

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A zinc telluride (ZnTe) film modified with MoS2 and carbon has been studied as a new photocathode for solar hydrogen production from photoelectrochemical (PEC) water splitting. The modification enhances PEC activity and stability of the photocathode. Thus, the MoS2/C/ZnTe/ZnO electrode exhibits highly improved activity of -1.48 mA cm(-2) at 0 V-RHE with a positively shifted onset potential up to 0.3 V-RHE relative to bare ZnO/ZnTe electrode (-0.19 mA cm(-2), 0.18 V-RHE) under the simulated 1 sun illumination. This represents the highest value ever reported for ZnTe-based electrodes in PEC water splitting. The carbon densely covers the surface of ZnTe to protect it against photocorrosion in aqueous electrolyte and improves charge separation. In addition, MoS2 further enhances the PEC performance as a hydrogen evolution co-catalyst.

机译：已经研究了用MoS2和碳改性的碲化锌（ZnTe）膜作为一种新的光电阴极，用于通过光电化学（PEC）分解产生太阳能氢。所述修饰增强了PEC活性和光电阴极的稳定性。因此，相对于裸露的ZnO / ZnTe电极，MoS2 / C / ZnTe / ZnO电极在0 V-RHE时具有-1.48 mA cm（-2）的高度改善的活性，且起始电位正移移至0.3 V-RHE。在模拟的1阳光照射下为0.19 mA cm（-2），0.18 V-RHE）。这代表了PEC水分解中基于ZnTe的电极的最高报道值。碳密集地覆盖ZnTe的表面，以保护其免受水性电解质中的光腐蚀的影响，并改善电荷分离。另外，MoS 2进一步提高了PEC作为析氢助催化剂的性能。

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《ACS applied materials & interfaces》 |2016年第12期|共8页
作者
Jang Youn Jeong; Lee Jaehyuk; Lee Jinwoo; Lee Jae Sung;
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photoelectrochemical hydrogen production; zinc telluride; molybdenum sulfide; carbon protection layer; photocathode;

机译：光电化学制氢;碲化锌;硫化钼;碳保护层;光阴极;
入库时间 2022-08-19 12:27:56

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1. Solar Hydrogen Production from Zinc Telluride Photocathode Modified with Carbon and Molybdenum Sulfide [J] . Jang Youn Jeong, Lee Jaehyuk, Lee Jinwoo, ACS applied materials & interfaces . 2016,第12期

机译：碳硫化钼修饰的碲化锌光阴极的太阳能制氢
2. Silicon Decorated with Amorphous Cobalt Molybdenum Sulfide Catalyst as an Efficient Photocathode for Solar Hydrogen Generation [J] . Chen Yang, Tran Phong D., Boix Pablo, ACS nano . 2015,第4期

机译：非晶硅硫化钼钴催化剂修饰的硅作为太阳能产生氢的有效光电阴极
3. Boosting Solar Hydrogen Production of Molybdenum Tungsten Sulfide-Modified Si Micropyramids by Introducing Phosphate [J] . Pichaimuthu Karthika, Chen Chih-Jung, Chen Chia-Hsien, ACS applied materials & interfaces . 2020,第37期

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4. Bismuth vanadate (BiVO_4) as counter electrode in the newly developed catalysis zone of modified cadmium sulfide (CdS) sensitized solar cell for hydrogen production [C] . F. O. Purnomo, H. Surahman, T. A. Ivandini, International Symposium on Current Progress in Mathematics and Sciences . 2018

机译：铋钒酸盐（BiVo_4）作为新开发的改性硫化镉（CDS）敏化太阳能电池的新开发的催化区中的对电极
5. Cadmium Telluride, Cadmium Telluride/Cadmium Sulfide Core/Shell, and Cadmium Telluride/Cadmium Sulfide/Zinc Sulfide Core/Shell/Shell Quantum Dots Study [D] . Yan, Yueran 2012

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6. Earth‐Abundant Tin Sulfide‐Based Photocathodes for Solar Hydrogen Production [O] . Wei Cheng, Nirala Singh, Will Elliott, 2018

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7. Hydrogen Production Using a Molybdenum Sulfide Catalyst on a Titanium-Protected n+p-Silicon Photocathode [O] . Seger Brian, Laursen Anders Bo, Vesborg Peter Christian Kjærgaard, 2012

机译：在受钛保护的n + p-硅光电阴极上使用硫化钼催化剂制氢
8. Studies of hydrogen-hydrogen and carbon-sulfur bond cleavage; Lewis acid modified molybdenum sulfide complexes; and Syntheses and reactions of pyrrole complexes. Final report [R] . 1998

机译：研究氢 - 氢和碳 - 硫键裂解;路易斯酸改性硫化钼配合物;和吡咯配合物的合成和反应。总结报告

Solar Hydrogen Production from Zinc Telluride Photocathode Modified with Carbon and Molybdenum Sulfide

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