第一性原理研究O_2在TiN_4掺杂石墨烯上的氢化  被引量：2

作　　者：路战胜[1] 李燕[1] 程莹洁 李硕[1] 张喜林[1] 徐国亮[1] 杨宗献[1] 

机构地区：[1]河南师范大学物理与电子工程学院,河南省光伏材料重点实验室,新乡453007

出　　处：《物理学报》2015年第21期326-330,共5页Acta Physica Sinica

基　　金：国家自然科学基金(批准号:51401078;11474086);河南省高校科技创新人才支持计划(批准号:15 HASTIT016)资助的课题~~

摘　　要：作为一种新型高效质子交换膜燃料电池阴极材料,金属与N共掺杂的石墨烯因其对氧还原反应具有较高的活性而引起了人们的广泛关注.采用包含色散力校正的密度泛函理论方法系统地研究了O2在TiN4掺杂的Graphene上的吸附,氢化特性.结果表明:1)O2倾向于以side-on模式吸附在Ti顶位,形成O-Ti-O三元环结构;2)O2在Ti N4-Graphene上更倾向于以分子形式直接氢化,形式OOH结构,并进一步解离为O+OH,反应的限速步为O2的氢化,对应的反应势垒为0.52 eV.As a kind of clean and high efficient energy conversion devices, the proton exchange membrane fuel cell（PEMFC）is a promising technology for clean and sustainable power generation. Metal-coordinated nitrogen-doped graphene is attractive since its use as a cathode material for the PEMFC. The mechanism of O2 activation and hydrogenation on Ti N4 embedded graphene has been investigated in terms of the dispersion-corrected density functional theory（DFT-D）method. It is found that： 1） O2 prefers to stay on top of the Ti atom with the side-on configuration, forming the O-Ti-O three-member ring with an adsorption energy of 4.96 eV. 2） According to the Mulliken atomic charges analysis,the absorbed O2 molecule are negatively charged by 0.60 e in the side-on configuration. 3） Upon the chemisorption of the O2 on TiN4-graphene, there are two possible pathways during the activation of the O2molecule： dissociation and hydrogenation. In the dissociation pathway, the adsorbed O2 molecule is first dissociated into two O atoms, with a fairly big reaction barrier of 0.95 eV and an endothermic reaction energy of 0.20 eV. Subsequently, the two O atoms are hydrogenated into O＋OH with a reaction barrier of 0.40 eV and an exothermic reaction energy of 2.46 eV. In the hydrogenation pathway, the reaction barrier of the hydrogenation of the adsorbed O2 is 0.52 eV. The OOH formed subsequently is dissociated into O＋OH with a small reaction barrier of 0.04 eV and an exothermic reaction of 2.14 eV.The hydrogenation pathways of the adsorbed O2 is more preferable, and the corresponding rate-limiting step of this pathway is the hydrogenation of the O2 with a reaction barrier of 0.52 eV and an exothermic reaction energy of 0.64 eV.In summary, the preferable path of the hydrogenation reactions of O2 on Ti N4-Graphene is O2（ads）＋H（ads）→OOH（ads）→O＋OH（ads）. Current results may be benefitial to the design of new electrocatalyst materials based on graphene.

关 键 词：TiN4掺杂的Graphene O2氢化 第一性原理 

分 类 号：TM911.4[电气工程—电力电子与电力传动]