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噻吩在γ-Mo_2N(100)表面上加氢脱硫反应的密度泛函理论研究 被引量:7

Density Functional Theory Study of Thiophene Hydrodesulfurization on γ-Mo_2N(100) Surface
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摘要 利用密度泛函理论研究了γ-Mo2N(100)表面上的噻吩加氢脱硫(HDS)过程.噻吩在γ-Mo2N(100)表面上不同作用形式的结构优化结果显示,η5-Mo2N吸附构型最稳定,具有最大的吸附能(-0.56 eV),此时噻吩通过S原子与Mo2原子相连平行表面吸附在四重空位(hcp位).H原子和噻吩在hcp位发生稳定共吸附,hcp位是噻吩HDS的活性位点.噻吩在γ-Mo2N(100)表面进行直接脱硫反应,HDS过程分为S原子脱除和C4产物加氢饱和两部分.过渡态搜索确定了HDS最可能的反应机理及中间产物,首个H原子的反应需要最大的活化能(1.69 eV),是噻吩加氢脱硫的控速步骤.伴随H原子的不断加入,噻吩在γ-Mo2N(100)表面上优先生成―SH和丁二烯,随后―SH加氢生成H2S,丁二烯加氢饱和生成2-丁烯和丁烷.由于较弱的吸附,H2S、2-丁烯和丁烷很容易在γ-Mo2N(100)表面脱附成为产物. The hydrodesulfurization (HDS) of thiophene on an y-Mo2N(100) surface was investigated by density functional theory (DFT) and different configurations of thiophene on y-Mo2N(100) surface were considered. After geometric optimization, it was confirmed that the η5-Mo2N configuration was the most stable adsorption model with an adsorption energy of -0.56 eV, where thiophene absorbed on 4-fold hcp vacant sites parallel to the surface with the S atom bonded to a Mo2 atom. The stable coadsorption of H atoms and thiophene on hcp sites showed that the hcp site is the active site for thiophene HDS on y-Mo2N(100). A direct desulfurization reaction pathway in HDS of thiophene dominated the process on the y-Mo2N(100) surface, which could be divided into the removal of the S atom and the hydrogenation saturation of C4 species. To identify the intermediate products and the most probable reaction mechanism of thiophene HDS, a transition state search was carried out. The results indicated that the reaction of the first H atom required an activation energy of 1.69 eV, which was the rate-determining step in the HDS of thiophene. The thiol group (-SH) and butadiene were preferentially formed after hydrogenation of thiophene, and -SH detached from mercaptan was the intermediate of H2S. 2-Butene and butane were the products of the hydrogenation saturation of butadiene. H2S, 2-butene, and butane were easily desorbed from y-Mo2N(100) to give the products because of weak adsorption.
作者 徐坤 冯杰 褚绮 张丽丽 李文英
机构地区 太原理工大学
出处 《物理化学学报》 SCIE CAS CSCD 北大核心 2014年第11期2063-2070,共8页 Acta Physico-Chimica Sinica
基金 国家高技术研究发展计划项目(863)(2011AA05A204)资助~~
关键词 噻吩 氮化钼 加氢脱硫 反应机理 密度泛函理论 Thiophene Molybdenum nitride Hydrodesulfurization Reaction mechanism Density functional theory
分类号 O643.12 [理学—物理化学]
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物理化学学报
2014年 第11期

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