61372-52-9Relevant academic research and scientific papers
Ligand precursor for preparing ruthenium-carbene complex with antitumor activity, ruthenium-carbene complex as well as preparation method and application of ruthenium-carbene complex
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Paragraph 0023-0026, (2021/04/26)
The invention discloses a ligand precursor for preparing a ruthenium-carbene complex with antitumor activity, the ruthenium-carbene complex as well as a preparation method and application of the ruthenium-carbene complex. The ligand is ionic compounds L-1
Cu-catalyzed controllable C-H mono-/di-/triarylations of imidazolium salts for ionic functional materials
Li, Shiqing,Tang, Junbin,Zhao, Yinsong,Jiang, Ruyong,Wang, Tianbao,Gao, Ge,You, Jingsong
supporting information, p. 3489 - 3492 (2017/03/30)
Herein the Cu-catalyzed direct C-H mono-, di- and triarylations of imidazolium salts with aryl iodides/bromides are accomplished for the first time. The unprecedented alkenylation and alkynylation are also realized using alkenyl and alkynyl iodides, respectively. Moreover, triarylated imidazolium salts with different substituents can be accessed in a modular and one-pot manner. This protocol provides an efficient tool for the assembly of diverse imidazolium-based ionic functional materials. As applicable examples, an electrochromic bisbenzimidazolium salt 7 and a photochromic triarylimidazolium salt 8 are easily obtained.
New Insights into the Role of Imidazolium-Based Promoters for the Electroreduction of CO2 on a Silver Electrode
Lau, Genevieve P. S.,Schreier, Marcel,Vasilyev, Dmitry,Scopelliti, Rosario,Gr?tzel, Michael,Dyson, Paul J.
supporting information, p. 7820 - 7823 (2016/07/07)
The electrochemical reduction of CO2 to CO is a reaction of central importance for sustainable energy conversion and storage. Herein, structure-activity relationships of a series of imidazolium-based cocatalysts for this reaction are described,
