通过 SrTiO3 中催化剂的特性跟踪水分离活性

Nursaya Zhumabay, Jeremy A. Bau, Rafia Ahmad, Laurentiu Braic, Huabin Zhang, Luigi Cavallo, Magnus Rueping
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引用次数: 0

摘要

光催化水分裂是最理想的绿色制氢途径,但这一反应对材料的要求很高,因此很难实现良好的光催化剂。贵金属茧催化剂通常被添加到光催化剂中,以帮助电荷分离并改善氢进化的表面动力学。在这里,有前途的掺铝 SrTiO3 光催化剂的高活性最终取决于所使用的助催化剂以及 Al 掺杂的存在。通过使用操作电化学衰减全反射表面增强红外吸收光谱跟踪光催化剂电极的带能,发现共催化剂(尤其是 Rh)会使光催化剂的准费米级和金属半导体平带电位向阳极方向移动。此外,偏移的大小与整体水分离活性直接相关,这表明随着光生电子进一步从导带稳定下来,SrTiO3 的活性会越来越高。密度泛函理论证实,铝掺杂的 SrTiO3 上的 Rh 提供了最有利的带定制,实验发现,在铝掺杂存在的情况下,Rh 通过消除与 Ti3+ 相关的表面陷阱提供了这种效果。因此,共催化剂对水分离活性的影响比以前想象的要复杂得多。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Tracking Water Splitting Activity by Cocatalyst Identity in SrTiO3

Tracking Water Splitting Activity by Cocatalyst Identity in SrTiO3
Photocatalytic water splitting is the most idealistic route to green hydrogen production, but the extensive material requirements for this reaction make it difficult to realize good photocatalysts. Noble metal cocatalysts are often added to photocatalysts to aid in charge separation and improve surface kinetics for H2 evolution. Herein, the high activity of the promising photocatalyst Al-doped SrTiO3 is demonstrated to be ultimately dependent on the cocatalyst used as much as the presence of Al dopant. By tracking the band energetics of photocatalyst electrodes using operando electrochemical attenuated total reflectance surface-enhanced infrared absorption spectroscopy, cocatalysts (especially Rh) are found to shift the quasi-Fermi levels and metal-semiconductor flat-band potentials of photocatalysts in an anodic direction. Furthermore, the size of the shift directly correlates with overall water splitting activity, demonstrating that SrTiO3 becomes more active as photogenerated electrons are stabilized further from the conduction band. Rh on Al-doped SrTiO3 provides the most advantageous band tailoring as confirmed by density functional theory and is experimentally found to provide this effect by eliminating Ti3+-related surface traps in the presence of Al dopants. Therefore, the effect of cocatalysts on water splitting activity is more complicated than previously thought.
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