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Saving the Energy Loss in Lithium-Mediated Nitrogen Fixation by Using a Highly Reactive Li3N Intermediate for C−N Coupling Reactions
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2022-04-27 , DOI: 10.1002/anie.202203170
Gao-Feng Chen 1 , Aleksandr Savateev 1 , Zihan Song 1 , Haoyu Wu 2 , Yevheniia Markushyna 1 , Lili Zhang 3 , Haihui Wang 2 , Markus Antonietti 1
Angewandte Chemie International Edition ( IF 16.1 ) Pub Date : 2022-04-27 , DOI: 10.1002/anie.202203170
Gao-Feng Chen 1 , Aleksandr Savateev 1 , Zihan Song 1 , Haoyu Wu 2 , Yevheniia Markushyna 1 , Lili Zhang 3 , Haihui Wang 2 , Markus Antonietti 1
Affiliation
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A successive reaction that yields aryl imides through combining lithium-mediated N2 fixation and C−N coupling is reported. Instead of simply being hydrolyzed to NH3 with energy wasted, this work first focuses on electro-synthetic Li3N from N2-fixation for the direct synthesis of nitrogen-containing chemicals, which will compensate for the energy consumption of Li plating and make the electrochemical N2 fixation more economical.
中文翻译:
通过使用高反应活性的 Li3N 中间体进行 C−N 偶联反应,节省锂介导的固氮过程中的能量损失
据报道,通过结合锂介导的 N 2固定和 CN 偶联,产生芳基酰亚胺的连续反应。这项工作不是简单地水解成NH 3浪费能量,而是首先关注从N 2固定电合成Li 3 N,用于直接合成含氮化学品,这将补偿镀锂的能耗,使电化学N 2固定更经济。
更新日期:2022-04-27
中文翻译:
通过使用高反应活性的 Li3N 中间体进行 C−N 偶联反应,节省锂介导的固氮过程中的能量损失
据报道,通过结合锂介导的 N 2固定和 CN 偶联,产生芳基酰亚胺的连续反应。这项工作不是简单地水解成NH 3浪费能量,而是首先关注从N 2固定电合成Li 3 N,用于直接合成含氮化学品,这将补偿镀锂的能耗,使电化学N 2固定更经济。
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