苯胺
化学
光催化
无机化学
水溶液
甲酸
转移加氢
制氢
氮化碳
电子供体
聚苯胺
氢
聚对苯二甲酸乙二醇酯
材料科学
有机化学
产量(工程)
罗丹宁
核化学
光化学
环己胺
电催化剂
碳纤维
单体
水解
作者
Papa Kwakye Kwarteng,Afreen Hooriya Naceruddin,Erwin Reisner
出处
期刊:University of Cambridge - Apollo
日期:2026-04-23
摘要
The synthesis of aromatic amines requires harsh conditions or the use of fossil-based hydrogen (H2). Here, we address this shortcoming by demonstrating photocatalytic transfer hydrogenation (PTH) of nitroarenes into anilines employing plastic hydrolysates as electron and proton (hydrogen) donors under ambient temperature and pressure. PTH is achieved using a cobalt-promoted molybdenum sulfide (CoMoS2) electrocatalyst integrated into a carbon nitride (CNx) semiconductor as a photocatalyst in acidic aqueous solution. CoMoS2 reduces nitroarenes to anilines at –0.7 V vs RHE with a Faradaic yield of 70% and superior activity to platinum. The CoMoS2-CNx photocatalyst produces anilines under simulated solar light (AM 1.5G, 25 °C), achieving 83-99% yield from 24 nitroarenes using 4-methylbenzyl alcohol as a model electron donor. Acid hydrolysis of condensation polymers provides a source of alcoholic monomers in aqueous solution that can be used as hydrogen donor for PTH in >80% yields. A technoeconomic analysis (TEA) at pilot scale producing 1 t aniline day⁻1 using polyethylene terephthalate (PET) reveals a cut in cradle-to-gate emissions by ~77% using PTH with CoMoS2-CNx compared to conventional Pd/C hydrogenation with H2 from steam methane reforming (SMR-H2) and a revenue-generating levelized cost of aniline (LCOA) when co-produced with terephthalic, acetic, and formic acids.
科研通智能强力驱动
Strongly Powered by AbleSci AI