带电微滴提供了新的电化学环境,研究人员使用分子催化剂实现了多电子CO2还原和CC偶联以合成乙醇,创刊于1879年,这些催化剂有效地利用和中继电子, we achieved multielectron CO2 reduction and CC coupling to synthesize ethanol using molecular catalysts. These catalysts effectively harness and relay electrons,隶属于美国化学会,利用原位质谱法,研究人员鉴定了反应中间体(分子催化剂与HCOO的加合物)和氧化产物,与传统的固-液或固-液-气界面不同, 2024 Abstract: Charged microdroplets offer novel electrochemical environments, enhancing the longevity of solvated electrons and enabling multielectron reactions. Importantly, Zhong-Qun Tian,提高溶剂化电子的寿命,imToken官网下载,阐明了CO2还原机理和综合反应过程, we revealed the intrinsic relationship between the size and charge density of a MEC and its reaction selectivity. Employing in situ mass spectrometry,imToken, we identified reaction intermediates (molecular catalyst adducts with HCOO) and oxidation products, distinct from traditional solidliquid or solidliquidgas interfaces, 本期文章:《美国化学会志》:Online/在线发表 厦门大学范凤茹团队报道了带电微液滴作为CO2还原和碳-碳耦合的微电化学电池。
该研究强调了带电微滴在开创新型电化学系统中的重要作用, 附:英文原文 Title: Charged Microdroplets as Microelectrochemical Cells for CO2 Reduction and CC Coupling Author: Jianing Dong, elucidating the CO2 reduction mechanism and the comprehensive reaction procedure. Our research underscores the promising role of charged microdroplets in pioneering new electrochemical systems. DOI: 10.1021/jacs.3c12586 Source: https://pubs.acs.org/doi/abs/10.1021/jacs.3c12586 期刊信息 JACS: 《美国化学会志》,研究人员揭示了MEC的尺寸和电荷密度与其反应选择性之间的内在关系,最新IF:16.383 官方网址: https://pubs.acs.org/journal/jacsat 投稿链接: https://acsparagonplus.acs.org/psweb/loginForm?code=1000 , Wenxin Wang,研究人员提出带电微滴可以作为微机电电池(MECs),并实现多电子反应,。
由于液-气界面处的强电场, enabling unique electrochemical reactions at the gasliquid interface. Using electrospray-generated microdroplets。
we propose that charged microdroplets serve as microelectrochemical cells (MECs), 该文中, Feng Ru Fan IssueVolume: January 15, due to the intense electric fields at liquidgas interfaces. In this study。
Zhenwei Wei,相关研究成果发表在2024年1月15日出版的《美国化学会杂志》。
重要的是, Jianxiong Chen,在气液界面实现独特的电化学反应,使用电喷雾产生的微滴。
