机构地区:[1]中国环境科学研究院环境基准与风险评估国家重点实验室,北京100012 [2]中国环境科学研究院国家环境保护生态工业重点实验室,北京100012 [3]清华大学环境学院环境模拟与污染控制国家重点联合实验室,北京100084
出 处:《Chinese Journal of Catalysis》2016年第1期102-122,共21页催化学报(英文)
基 金:supported by the National Natural Science Foundation of China(21325731,51478241,21221004)~~
摘 要:Formaldehyde(HCHO)is carcinogenic and teratogenic,and is therefore a serious danger to human health.It also adversely affects air quality.Catalytic oxidation is an efficient technique for removing HCHO.The development of highly efficient and stable catalysts that can completely convert HCHO at low temperatures,even room temperature,is important.Supported Pt and Pd catalysts can completely convert HCHO at room temperature,but their industrial applications are limited because they are expensive.The catalytic activities in HCHO oxidation of transition-metal oxide catalysts such as manganese and cobalt oxides with unusual morphologies are better than those of traditional MnO2,Co3O4,or other metal oxides.This is attributed to their specific structures,high specific surface areas,and other factors such as active phase,reducibility,and amount of surface active oxygens.Such catalysts with various morphologies have great potential and can also be used as catalyst supports.The loading of relatively cheap Ag or Au on transition-metal oxides with special morphologies potentially improves the catalytic activity in HCHO removal at room temperature.The preparation and development of new nanocatalysts with various morphologies and structures is important for HCHO removal.In this paper,research progress on precious-metal and transition-metal oxide catalyst systems for HCHO oxidation is reviewed; topics such as oxidation properties,structure–activity relationships,and factors influencing the catalytic activity and reaction mechanism are discussed.Future prospects and directions for the development of such catalysts are also covered.甲醛是致癌致畸物并具有较强的光化学活性.它既来源于纺织、农药、板材或其他精细化学品的生产过程,又来源于机动车尾气和室内各种装潢材料.为了人体健康和大气环境去除甲醛非常必要.用催化氧化法去除甲醛是一种很有前景的技术,但是该技术的关键是研究和发展催化剂.近年来,用于甲醛氧化的催化剂主要分为贵金属催化剂和过渡金属氧化物催化剂.贵金属催化剂是将Pt,Pd,Au,Ag等贵金属负载在不同类型的载体上而制得.载体可分为常见载体、传统金属氧化物载体和特殊形貌金属氧化物载体.常见载体是具有较大比表面积的SiO_2,Al_2O_3,TiO_2和分子筛等.这类载体有利于活性位的暴露以及反应物和产物的吸附和扩散,而且还能增强载体和活性组分的协同作用.负载在常见载体上的不同贵金属催化剂,其甲醛氧化活性从强到弱排列是:Pt>Pd>Rh>Au>Ag.用这种载体制备的催化剂具有很出色的应用前景.比如Na-Pt/TiO_2是甲醛氧化活性最好的催化剂,目前己被应用在空气净化器中,其次是Pt/TiO_2和Pd/TiO_2.传统金属氧化物载体主要是采用沉淀法、共沉淀法制备的CeO_2,Fe_2O_3,Co_3O_4,MnO_2及其复合氧化物,这类载体负载Pt的催化剂仍然具有出色的室温催化性能,如Pt/MnO_x-CeO_2和Pt/Fe_2O_3等.虽然Pt负载型催化剂应用前景很好,但是其成本较高,工业生产和普及受到限制.用传统金属氧化物载体制备的催化剂如Au/CeO_2,Ag/MnO_x-CeO_2和Ag/CeO_2等同样具有良好的发展前景.对于提高甲醛氧化活性来说,载体的选择至关重要.未来研究趋势可能是甲醛氧化负载型催化剂更多的会选择Ag或Au作为活性组分,而一些有潜力的传统金属氧化物载体将被使用不同的制备方法进一步改良.目前,拥有棒状、球状、孔状等特殊形貌的金属氧化物载体因为它们本身的催化活性要优于用沉淀法制备的传统金属氧化物催化�
关 键 词:FORMALDEHYDE Catalytic oxidation Metal oxide catalyst Noble metal catalyst Low-temperature catalytic activity
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