R. Ali, Qadeer Akbar Sial, Young Jae Lee, Muhammad Waqas, S. Kalanur, H. Seo
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引用次数: 1
摘要
光电化学(PEC)水分解是将太阳能转化为氢燃料的最可持续的方法之一。价格合理且坚固耐用的光电极对于PEC技术的商业化至关重要。近年来,过渡金属基催化剂,特别是镍基和铁基催化剂,由于其特殊的OER特性而引起了人们的广泛关注。鉴于此,我们提出在TiO2光阳极表面装饰fe - ni基助催化剂用于PEC水分解。采用水热法合成了TiO2光阳极,并用Fe-Ni氢氧化物催化剂进行光辅助电沉积修饰。优化后的TiO2/FeNiOOH光阳极在AM 1.5 G光照下,在1.23 V vs RHE下的最大光电流密度值为1.36 mA cm−2,几乎是裸TiO2光电流密度的两倍。由于增强了紫外区的光吸收,优化后的光阳极的IPCE和光转换效率分别达到87.8%和0.93%。此外,H2代的法拉第效率为~ 90%,O2代的法拉第效率为~ 70%。主要是对光电流势的增强作了详细的解释。我们的研究显示了使用双金属催化剂和TiO2光阳极在可持续水分解应用中的作用和好处。
A Synergic Effect of Bi-metallic Layered Hydro-Oxide Cocatalyst on 1-D TiO2 Driven Photoelectrochemical Water Splitting
ABSTRACT Photoelectrochemical (PEC) water splitting is one of the most sustainable approaches for converting solar energy into hydrogen fuel. Affordable and robust photoelectrodes are crucial for the commercialization of PEC technologies. Recently, transition metal-based co-catalysts, especially Ni- and Fe-based catalysts, have attracted much interest owing to their exceptional OER characteristics. Given this, we here proposed the decoration of a Fe-Ni-based cocatalyst on the surface of the TiO2 photoanode for PEC water splitting. The TiO2 photoanode was hydrothermally synthesized and then decorated by Fe-Ni hydroxide catalyst using photo-assisted electrodeposition. The optimized TiO2/FeNiOOH photoanode exhibited the maximum photocurrent density value of 1.36 mA cm−2, which is almost twice the value obtained for bare TiO2, at 1.23 V vs RHE under the AM 1.5 G illumination. Due to the enhanced light absorption in the UV region, the optimized photoanode exhibited remarkable IPCE and photoconversion efficiency of 87.8% and 0.93%, respectively. Furthermore, excellent faradaic efficiencies of ∼90% for H2 and ∼70% for O2 generations were obtained. Predominantly, the enhancement in the photocurrent potentials was explained in detail. Our study shows the roles and benefits of using bimetallic catalysts with TiO2 photoanodes for sustainable water-splitting applications.
期刊介绍:
The Journal of Asian Ceramic Societies is an open access journal publishing papers documenting original research and reviews covering all aspects of science and technology of Ceramics, Glasses, Composites, and related materials. These papers include experimental and theoretical aspects emphasizing basic science, processing, microstructure, characteristics, and functionality of ceramic materials. The journal publishes high quality full papers, letters for rapid publication, and in-depth review articles. All papers are subjected to a fair peer-review process.