Flexible cupric oxide photocathode with enhanced stability for renewable hydrogen energy production from solar water splitting

Yang Li; Kai Luo

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Flexible cupric oxide photocathode with enhanced stability for renewable hydrogen energy production from solar water splitting

机译：具有增强稳定性的柔性氧化铜光阴极，可用于分解太阳能产生可再生氢能

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CuO is a promising but unstable photocathode in solar water splitting. Herein, a flexible CuO photocathode is prepared and its degradation mechanisms and stabilization strategies have been discussed. Briefly, we find alkali environment and low light intensity are the critical factors in the stabilization of the CuO photocathode. For practical usage, a composite semiconductor layer, composed of TiO _(2) , La _(2) O _(3) and NiO, is deposited on the CuO photocathode, which is proved to be effective for enhancing the stabilization of the CuO photocathode. 100% of the photocurrent density has been retained after 20 minutes of continuous illumination. The optimized stable photocurrent density is measured as 0.3 mA cm ~(?2) at 0.5 V _(RHE) .

机译：在太阳能水分解中，CuO是一种有前途但不稳定的光电阴极。本文中，制备了柔性CuO光电阴极，并讨论了其降解机理和稳定策略。简而言之，我们发现碱性环境和低光强度是稳定CuO光电阴极的关键因素。在实际应用中，由TiO _（2），La _（2）O _（3）和NiO组成的复合半导体层沉积在CuO光电阴极上，被证明可有效提高CuO的稳定性。光电阴极。连续照明20分钟后，保留了100％的光电流密度。优化的稳定光电流密度在0.5 V _（RHE）下测得为0.3 mA cm〜（？2）。

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《RSC Advances 》 |2019年第15期| 共5页
作者
Yang Li; Kai Luo;
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中图分类化学 ;
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1. Flexible cupric oxide photocathode with enhanced stability for renewable hydrogen energy production from solar water splitting [J] . Li Yang, Luo Kai RSC Advances . 2019 ,第15期

机译：柔性氧化铜氧化物光电阴极，具有来自太阳能水分裂的可再生氢能量生产的增强稳定性
2. Reduced Graphene Oxide as a Catalyst Binder: Greatly Enhanced Photoelectrochemical Stability of Cu(In,Ga)Se_2 Photocathode for Solar Water Splitting [J] . Koo Bonhyeong, Byun Segi, Nam Sung-Wook, Advanced Functional Materials . 2018 ,第16期

机译：还原的氧化石墨烯作为催化剂的粘合剂：大大提高了用于太阳能水分解的Cu（In，Ga）Se_2光电阴极的光电化学稳定性
3. Photoelectrochemical hydrogen production from water splitting using heterostructured nanowire arrays of Bi2O3/BiAl oxides as a photocathode [J] . Salomao Pedro E. A., Gomes Danielle S., Ferreira Everson J. C., Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2019 ,第期

机译：使用含有异质纳米线阵列的水分裂的光电化学氢气作为光电阴极的外性纳米线阵列
4. SIMULATION OF HYDROGEN PRODUCTION BY USING CONCENTRATED SOLAR ENERGY THROUGH THERMO-CHEMICAL WATER SPLITTING PROCESS. PART I: SIMULATION OF ZINC OXIDE REDUCTION REACTION. [C] . Furqan Ahmad Khan, Kamran Siddiqui ASME/JSME/KSME Joint Fluids Engineering Conference;AJK2011 . 2012

机译：通过热化学水分解过程利用浓缩太阳能模拟制氢过程。第一部分：氧化锌还原反应的模拟。
5. Photoelectrochemical water splitting for hydrogen production with metal oxide (hematite and cupric oxide) based photocatalysts. [D] . Tang, Houwen. 2012

机译：用于金属氧化物（赤铁矿和氧化铜）光催化制氢的光电化学水。
6. Nanoengineered Advanced Materials for Enabling Hydrogen Economy: Functionalized Graphene–Incorporated Cupric Oxide Catalyst for Efficient Solar Hydrogen Production [O] . Goutam Kumar Dalapati, Saeid Masudy‐Panah, Roozbeh Siavash Moakhar, 2020

机译：纳米技术可实现氢经济的先进材料：功能化石墨烯结合氧化铜催化剂可有效生产太阳能
7. Metal Oxides Applied to Thermochemical Water-Splitting for Hydrogen Production Using Concentrated Solar Energy [O] . 2019

机译：使用浓缩太阳能施加氢气生产的金属氧化物
8. Renewable hydrogen production by photosynthetic water splitting [R] . Greenbaum, E. , Lee, J. W. 1998

机译：通过光合水分解产生可再生的氢气

Flexible cupric oxide photocathode with enhanced stability for renewable hydrogen energy production from solar water splitting

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