Delaunay Oriane, Denicourt-Nowicki Audrey, Roucoux Alain
Univ Rennes, Ecole Nationale Supérieure de Chimie de Rennes, CNRS, ISCR - UMR6226, Rennes F-35000, France.
ACS Omega. 2025 Aug 6;10(32):36154-36163. doi: 10.1021/acsomega.5c03794. eCollection 2025 Aug 19.
While global hydrogen demand continues to increase, green and efficient production of on-demand hydrogen is still needed to compete with current systems based on the use of fossil fuels. Among recent technologies, photocatalytic hydrogen production is a promising alternative, whose scale-up remains limited owing to various reaction parameters that impact the efficiency of the process. In this context, alcohols as liquid organic hydrogen carriers (LOHCs) constitute a relevant strategy for the production of clean H through their oxidative dehydrogenation. The aim of these investigations was to highlight conditions for the preparation of various TiO-decorated photocatalysts as efficient materials for hydrogen production from photoreforming of alcohols in water. The impact of simple engineering parameters was also compared to enhance the catalytic activity, thus allowing an unprecedented hydrogen production rate of 135,600 μmol·g·h, which could be relevant in response to the increasing demand of clean energy. In the optimized conditions, high apparent quantum yield was also achieved.
尽管全球氢气需求持续增长,但仍需要绿色高效地按需生产氢气,以与当前基于化石燃料使用的系统竞争。在最近的技术中,光催化制氢是一种有前景的替代方法,但其扩大规模仍受到各种影响该过程效率的反应参数的限制。在这种背景下,醇类作为液体有机氢载体(LOHCs),通过其氧化脱氢构成了一种生产清洁氢气的相关策略。这些研究的目的是突出制备各种TiO修饰的光催化剂的条件,这些光催化剂是用于水中醇类光重整制氢的高效材料。还比较了简单工程参数的影响以提高催化活性,从而实现了前所未有的135,600 μmol·g·h的产氢速率,这可能与应对不断增长的清洁能源需求相关。在优化条件下,还实现了高表观量子产率。
