聚苯乙烯
方案(数学)
价值(数学)
氢
材料科学
纳米技术
高分子科学
法律工程学
化学
工程类
计算机科学
复合材料
数学
有机化学
聚合物
数学分析
机器学习
作者
Chirasmayee Mohanty,Alaka Samal,Jagadish Kumar,Ajaya K. Behera,Rita Das,Nigamananda Das
标识
DOI:10.1016/j.ijhydene.2025.03.193
摘要
Pairing the mechanism of hydrogen evolution alongside photoreforming of plastic-based waste items offers an integrated method to produce green hydrogen fuel and recycle post-consumer plastic items concurrently to promote the development of green technology and a sustainable economy. In this work, an S-scheme heterojunction was constructed using α-MnO 2 /g-C 3 N 4 for the photoreformation of polystyrene (PS) to generate hydrogen (H 2 ), and value-added chemicals. The experimental findings revealed the α-MnO 2 /g-C 3 N 4 heterojunction with 10 wt % carbon nitride showing a maximum hydrogen evolution rate of 12.6 ± 2 mmol H 2 g cat −1 h −1 , with concurrent conversion of PS into value-added organic molecules i.e benzaldehyde , benzoic acid , toluene, benzene, carbonic acid etc. The excellent activity with the stability of the catalytic system for over 30 h of continuous reaction was ascribed to the perfect S-scheme combination with higher redox potential , rod-like morphology, compatibility, and associated chemical resistance of the catalyst, which play the key role in stabilizing the morphology and surface active sites for long time. First-Principles Investigation confirmed the compatibility between the S-scheme counterparts that helped in the improved catalytic behaviour towards photoreforming and provided the groundwork for the advancement of photocatalytic systems towards simultaneous generation of green hydrogen and reformation of waste plastic. • α-MnO 2 /g-C 3 N 4 heterojunction for polystyrene photoreforming. • Hydrogen yield: 12.6 ± 2 mmol H 2 g cat −1 h −1 with value-added chemicals. • Enhanced stability and activity of α-MnO 2 /g-C 3 N 4 confirmed. • DFT validated α-MnO 2 /g-C 3 N 4 compatibility and charge transfer efficiency. • Sustainable solution for energy generation and waste management.
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