物理化学学报2026,Vol.42Issue(2):133-144,12.DOI:10.1016/j.actphy.2025.100173
Ir调控中间体生成类型抑制光催化甲烷转化中产物过氧化
Regulating the formation type by Ir of intermediates to suppress product overoxidation in photocatalytic methane conversion
摘要
Abstract
Methane,as an abundant resource,serves not only as an excellent fossil fuel but also as a pivotal feedstock for synthesizing high-value-added chemical products.Solar-driven methane conversion offers a highly promising pathway for the direct production of high-value chemicals such as methanol(CH3OH)and formaldehyde(HCHO)under mild conditions.However,the core challenge of this conversion process lies in the tendency of target products to undergo over-oxidation,resulting in low selectivity—a critical bottleneck that urgently requires breakthrough in this field.Herein,we constructed an Ir-modified CdS(Irx/CdS)photocatalytic system and proposed that regulating the generation types of key reaction intermediates via metallic Ir is an effective strategy to enhance the selectivity of target products and suppress over-oxidation.In situ diffuse reflectance infrared Fourier transform spectroscopy(in situ DRIFTS)confirmed that the types of key intermediates generated during methane activation differ,which decisively influences the product distribution.On pure CdS surfaces,the key intermediate *CH3O tends to participate in subsequent deep oxidation reactions via its O atom,ultimately leading to over-oxidized products like CO2.In contrast,after Ir loading,the key reaction intermediate shifts to *CH3.The Ir sites facilitate the conversion of *CH3 to ·CH3 radicals through localized electron transfer,and the generated ·CH3 radicals rapidly combine with ·OH radicals to selectively form CH3OH.The performance evaluation of photocatalytic methane conversion demonstrated that under conditions of 60 ℃,0.1 MPa,and molecular oxygen as the oxidant,the 0.50 wt%Ir-loaded Ir0.50/CdS sample exhibited optimal performance:the yield of oxygenated liquid products(CH3OH and HCHO)reached 509.2 μmol g-1 h-1,with overall selectivity enhanced to 88%.Characterization techniques such as X-ray diffraction(XRD),X-ray photoelectron spectroscopy(XPS),and transmission electron microscopy(TEM)revealed the coexistence of two valence states of Ir on the catalyst surface(metallic Ir0 and oxidized Ir4+),with the metallic state being dominant.The strategy proposed in this work—regulating intermediate species generation via metal modification to inhibit over-oxidation—provides a novel approach for the efficient conversion of methane into high-value oxygenated chemicals.关键词
甲烷转化/光催化/金属负载/关键中间体生成Key words
Methane conversion/Photocatalysis/Metal loading/Generation of key intermediates分类
化学化工引用本文复制引用
张宇航,李意,曹玥晗,帅英杰,周宇,周莹..Ir调控中间体生成类型抑制光催化甲烷转化中产物过氧化[J].物理化学学报,2026,42(2):133-144,12.基金项目
国家杰出青年科学基金(52325401) (52325401)
国家自然科学基金青年科学基金项目(22209135) (22209135)
四川省科技计划"揭榜挂帅"项目(2023YFG0375)以及中国博士后科学基金特别资助项目(2024T170747) (2023YFG0375)
