燃料化学学报(中英文)2024,Vol.52Issue(8):1149-1161,13.DOI:10.19906/j.cnki.JFCT.2024005
Fe、La掺杂和氧缺陷对CeO2表面吸附As2O3的密度泛函理论研究
Density functional theory study of adsorption of As2O3 on CeO2 surface by Fe,La doping and oxygen defects
摘要
Abstract
Density functional theory(DFT)was used to study the adsorption behavior of As2 O3(g)on iron and lanthanum doped CeO2(110)and oxygen-deficient LaCeO(110)surfaces,and the reasons for the arsenic adsorption capacity of LaCeO surface was significantly higher than that of FeCeO surface was explored.The results show that the adsorption effect of As2 O3(g)is closely related to the number of adsorption sites,adsorption energy,bond length and charge transfer amount.Ce and O atoms on the surface of pure CeO2 are both active sites,and the adsorption is mainly chemisorption,the absolute adsorption energy is greater than-4.22 eV,and the charge transfer amount is(-0.19)-(-0.31)e.As2 O3 has a negative charge and acts as a surface accepter,while CeO2 loses electrons and has a positive charge on the surface,which acts as a surface donor.The number of free electrons in the CeO2 conduction band gradually decreases,the conductivity decreases,and it is difficult to provide more electrons continuously,so the adsorption amount is small.Two adsorption sites are added on the surface of FeCeO(110):Fe top site and Bridge-2 Bridge site,where Fe top site is chemical adsorption and Bridge-2 Bridge site is physical adsorption.The gap doping of Fe changes the electron distribution and lattice structure on the surface of FeCeO,resulting in obvious deformation of the lattice and reducing the difficulty of bonding,thus increasing the configurational adsorption energy of some configurations.However,it does not change the charge transfer direction between As2 O3 and FeCeO,thus not changing the surface adsorption form of As2 O3.As2 O3 is still adsorbed in the form of negative ions,which plays the role of surface acceptor,and the adsorption amount is small.LaCeO(110)has three new adsorption sites:La top site,Bridge-3 Bridge site and Hollow-2 vacancy,among which the La top site and Bridge-3 Bridge site are chemical adsorption.La doping changes the charge transfer direction between As2 O3 and LaCeO,resulting in positive ion adsorption of As2 O3 with electron loss and surface donor function.The electrons on the surface of LaCeO play the role of surface acceptor.With the progress of adsorption,the number of free electrons in the conduction band increases,and the conductivity increases.Therefore,the adsorption capacity of As2 O3 on the surface of LaCeO increases.In the absence of O2,the number of chemical bonds and bond energy formed on the surface of LaCeO(110)with single O defect are smaller than those on the surface of LaCeO and the charge transfer on the surface of the defect is less,so the adsorption energy decreases.In this case,As2 O3 obtains electrons and acts as the surface donor,and the adsorption capacity is lower than that on the complete LaCeO surface.In the presence of O2,the adsorption energy and charge transfer number increase in the ortho-configuration after O2 supplementation with O defect.As2 O3 is positively adsorbed in ionic form,and the adsorption energy is also higher than that on the intact LaCeO surface.The adsorption capacity of As2 O3 is better than that on the LaCeO surface,indicating that O defect is conducive to the adsorption of As2 O3 in the presence of O2.关键词
密度泛函理论/二氧化铈/Fe、La掺杂/As2O3吸附/O缺陷Key words
density functional theory/CeO2/Fe,La doping/As2 O3 adsorption/oxygen deficiency分类
能源科技引用本文复制引用
卢鲲鹏,张凯华,张锴..Fe、La掺杂和氧缺陷对CeO2表面吸附As2O3的密度泛函理论研究[J].燃料化学学报(中英文),2024,52(8):1149-1161,13.基金项目
The project was supported by the National Natural Science Foundation of China(U1910215)and the National Key R&D Program of China(2020YFB0606201).国家自然科学基金委与山西煤基低碳联合基金重点项目(U1910215)和国家重点研发计划(2020YFB0606201)资助 (U1910215)
