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作 者:苟进韬 刘挺豪 杨华清[1] GOU Jin-tao;LIU Ting-hao;YANG Hua-qing(College of Chemical Engineering,Sichuan University,Chengdu 610065,China)
出 处:《化学研究与应用》2023年第9期2217-2222,共6页Chemical Research and Application
基 金:国家自然科学基金项目(22073064)资助。
摘 要:在GGA-PBE/DNP的理论水平下,构建了Zn单原子和氮原子共掺杂单空位(SG)和双空位(DG)石墨烯催化剂模型,分别记作Zn-N_(x)/SG(x=0~3)和Zn-N/DG(x=0~4)。对于Zn-N_(x)/SG或Zn-N_(x)/DG,随着N原子的增加,其稳定性依次升高。研究了在不同含氮配位环境的Zn-N_(x)/SG和Zn-N_(x)/DG对吸附和活化O_(2)的影响。单空位掺杂的Zn-N_(x)/SG活化O_(2)的程度均强于双空位掺杂的Zn-N_(x)/DG。对于Zn-N_(x)/SG或Zn-N_(x)/DG,随着N原子的逐渐增加,Zn位点的正电荷逐渐增加,d带中心与费米能级的能级差逐渐减小,活化氧气的能力逐渐增强。其中,Zn-N_(3)/SG表现出最强的活化O_(2)的能力。The single-atom Zn-N_(x)/C(x=0~4)catalyst models were studied at GGA-PBE/DNP level,in which zinc atom was located on monovacancy(SG)and divacancy(DG)defective nitrogen-doped graphene,denoted as Zn-N_(x)/SG(x=0~3)and Zn-N_(x)/DG(x=0~4),respectively.For Zn-N_(x)/SG or Zn-N_(x)/DG,their stabilities increase sequentially with the increasing nitrogen atoms.Toward the activation of O_(2),Zn-N_(x)/SG exhibit stronger activity than Zn-N_(x)/DG.For Zn-N_(x)/SG or Zn-N_(x)/DG,the more the doped nitrogen atoms,the more positive the charge at Zn-site,the less negative the energy level difference(ε_(d))for the center of the d-bands relative to the Fermi level,and the stronger the capability of activating O_(2).Among Zn-N_(x)/SG and Zn-N_(x)/DG,Zn-N_(3)/SG displays the strongest activity,toward the activation of O_(2).
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