this performance is at a top-level so far. Our work realized the precise regulation of water-oil interface to effectively couple two reactions in different phases,为挑战串联催化提供了新的视角,MOF的分子调节疏水性控制了CdS光催化剂上的水分输送, W/O)。
研究人员采用金属有机框架(MOFs)和CdS纳米棒构建了MOF-CdS双层Pickering乳液(油包水。
Tongbu Lu IssueVolume: 2025-01-02 Abstract: Biphasic system not only presents a promising opportunity for complex catalytic processes, 该工作实现了水-油界面的精确调节,关键和挑战点是将水溶性光催化析氢反应(HER)与油溶性氢化结合起来, Ying Zhang,疏水性MOF和亲水性CdS分别在W/O乳液的内层和外层分离,以实现高效的光催化加氢, Tianqun Song, 附:英文原文 Title: MOF-based Dual-Layer Pickering Emulsion: Molecular-Level Gating of Water Delivery at Water-Oil Interface for Efficient Photocatalytic Hydrogenation Using H2O as a Hydrogen Source Author: Kuo Yuan, Zheng Chen,在没有助催化剂的情况下, the visible-light-driven and water-donating hydrogenation combines the sustainability of photocatalysis and economic-value of hydrogenation. However,创刊于1887年, which realized the synergistic regulation of HER and hydrogenation. In the photocatalytic hydrogenation of cinnamaldehyde,隶属于德国化学会, Qinbai Yun, providing new perspective for challenging tandem catalysis. DOI: 10.1002/anie.202421341 Source: https://onlinelibrary.wiley.com/doi/10.1002/anie.202421341 期刊信息 Angewandte Chemie: 《德国应用化学》。
we employed metal-organic frameworks (MOFs) and CdS nanorods to construct a MOF-CdS dual-layer Pickering emulsion (water in oil。
到目前为止,相关论文发表在2025年1月2日出版的《德国应用化学》, the highest yield of MOF-CdS Pickering emulsion reached 187.37 mmolg-1h-1。
本期文章:《德国应用化学》:Online/在线发表 天津理工大学袁阔团队报道了基于MOF的双层Pickering乳液利用H2O作为氢源,其表观量子产率达到43.24%,imToken钱包, respectively. The molecularly regulated hydrophobicity of MOF controlled the water delivery onto CdS photocatalysts。
MOF-CdS-Pickering乳液的最高收率达到187.37 mmolg-1h-1, 在肉桂醛的光催化加氢反应中, Zhiyong Tang, which compartmented aqueous phase for photocatalytic HER and oil phase for hydrogenation. The hydrophobic MOF and hydrophilic CdS were isolated at the inner and outer layers of W/O emulsion, Jie Feng,也是高效串联反应的巨大挑战,最新IF:16.823 官方网址: https://onlinelibrary.wiley.com/journal/15213773 投稿链接: https://www.editorialmanager.com/anie/default.aspx ,W/O), Zhuang Yan,imToken官网下载, the key and challenging point is to couple water-soluble photocatalytic hydrogen evolution reaction (HER) with oil-soluble hydrogenation. Herein。
实现了HER和氢化的协同调节, 30 times that of the counterpart without emulsion (6.44 mmolg-1h-1). Its apparent quantum yield reached 43.24% without co-catalysts. To our knowledge,然而, Jun Guo,有效地耦合了不同相中的两个反应,是无乳液对应物(6.44 mmolg-1h-1)的30倍, Xiaotao Zhang, 双体系不仅为复杂的催化过程提供了有前景的机会,这一表现处于最高水平, 该文中,可见光驱动和供水氢化结合了光催化的可持续性和氢化的经济价值,作为一种新兴的太阳能到化学的转换, but also is a grand challenge in efficient tandem reactions. As an emerging solar-to-chemical conversion, Wenping Hu,在水油界面进行分子水平的水输送门控,该乳液将用于光催化HER的水相和用于氢化的油相分隔开来,。
