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Synthesis and Characterization of Acridinium Dyes for Photoredox Catalysis
Synlett ( IF 1.7 ) Pub Date : 2019-03-12 , DOI: 10.1055/s-0037-1611744 Alexander White , Leifeng Wang , David Nicewicz 1
Synlett ( IF 1.7 ) Pub Date : 2019-03-12 , DOI: 10.1055/s-0037-1611744 Alexander White , Leifeng Wang , David Nicewicz 1
Affiliation
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Photoredox catalysis is a rapidly evolving platform for synthetic methods development. The prominent use of acridinium salts as a sustainable option for photoredox catalysts has driven the development of more robust and synthetically useful versions based on this scaffold. However, more complicated syntheses, increased cost, and limited commercial availability have hindered the adoption of these catalysts by the greater synthetic community. By utilizing the direct conversion of a xanthylium salt into the corresponding acridinium as the key transformation, we present an efficient and scalable preparation of the most synthetically useful acridinium reported to date. This divergent strategy also enabled the preparation of a suite of novel acridinium dyes, allowing for a systematic investigation of substitution effects on their photophysical properties.
中文翻译:
用于光氧化还原催化的吖啶染料的合成与表征
光氧化还原催化是一个快速发展的合成方法开发平台。吖啶盐作为光氧化还原催化剂的可持续选择的突出使用推动了基于这种支架的更强大和合成有用的版本的开发。然而,更复杂的合成、增加的成本和有限的商业可用性阻碍了更大的合成社区采用这些催化剂。通过利用黄嘌呤盐直接转化为相应的吖啶盐作为关键转化,我们提出了迄今为止报道的最具合成用途的吖啶盐的高效且可扩展的制备方法。这种不同的策略也使制备一套新型吖啶染料成为可能,
更新日期:2019-03-12
中文翻译:
用于光氧化还原催化的吖啶染料的合成与表征
光氧化还原催化是一个快速发展的合成方法开发平台。吖啶盐作为光氧化还原催化剂的可持续选择的突出使用推动了基于这种支架的更强大和合成有用的版本的开发。然而,更复杂的合成、增加的成本和有限的商业可用性阻碍了更大的合成社区采用这些催化剂。通过利用黄嘌呤盐直接转化为相应的吖啶盐作为关键转化,我们提出了迄今为止报道的最具合成用途的吖啶盐的高效且可扩展的制备方法。这种不同的策略也使制备一套新型吖啶染料成为可能,
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