Dipyrenylmercapto perylenediimide/TiO2 heterojunction photocatalyst efficiently cleaved the Cα-O bond of lignin model compound
ID:60
Submission ID:327 View Protection:ATTENDEE
Updated Time:2024-05-15 17:35:12
Hits:428
Poster Presentation
Abstract
Biomass depolymerization is a strategic choice for achieving sustainable development and producing high-value aromatic chemicals. Recently, photocatalysis has attracted widespread attention for efficient cleavage of C-O bonds in lignin under mild conditions. However, common inorganic semiconductors photocatalyst often suffer from several drawbacks, such as low solar light utilization efficiency, easily photogenerated carrier recombination and so on. Here, we synthesized a novel organic semiconductor material dipyrenylmercapto perylenediimide (DPPDI), which exhibited exceptional light absorption capabilities and remarkable electron mobility attributed to its planar structure. An organo-inorganic heterojunction photocatalyst was prepared by cooperating DPPDI with TiO2, which was used for efficient and selective cleavage of Cα-O bonds in lignin model compounds benzyl phenyl ether (BPE). Under the optimized conditions, the Pd@5%DPPDI/TiO2 photocatalyst can achieve complete conversion of substrate BPE within 30 min, and the C-O bond cleavage selectivity reached ~100%, which was 2 times higher than that of commercial Pd@TiO2. After four cycles, the conversion rate of BPE exhibited exceptional cycling stability with only a marginal 10% decrease. The experimental and theoretical calculations proved that this DPPDI/TiO2 heterojunction photocatalyst not only extended the light absorption wavelength range but also mitigated recombination of photogenerated carriers, which increased the efficiency of photocatalysis. This work shows the potential application of organo-inorganic heterojunction photocatalyst based perylenediimide in the field of biomass photocatalytic depolymerization.
Keywords
perylenediimide; organic-inorganic heterojunction photocatalyst; photocatalysis; lignin; cα-o bond cleavage.
Submission Author
松 韩
中国矿业大学化工学院
云 赵
中国矿业大学
中海 倪
中国矿业大学
Comment submit