物理化学学报
物理化學學報
물이화학학보
ACTA PHYSICO-CHIMICA SINICA
2013年
2期
365-370
,共6页
密度泛函理论%氧原子%氧分子%Nb(110)表面
密度汎函理論%氧原子%氧分子%Nb(110)錶麵
밀도범함이론%양원자%양분자%Nb(110)표면
Density functional theory%O atom%O2 molecule%Nb(110) surface
用基于密度泛函理论的第一性原理方法研究了 Nb(110)表面氧原子覆盖度分别为0.25、0.50、0.75和1.00单层时对氧分子解离的影响.结果表明,在氧原子覆盖度不大于0.50单层时,由于氧分子和表面铌原子的较强相互作用,使它们能够自发解离.然而在氧原子覆盖度为0.75单层时,氧分子只能够在未占据的洞位附近解离,同时发生严重的晶格畸变.在形成一个氧原子单层后(1.00单层),氧分子只能弱吸附在Nb(100)表面上,此时氧原子向内扩散成为氧分子继续解离的速率决定步骤.这些结果从理论上解释了在形成一个氧原子单层后, Nb(110)表面氧分子吸收速率迅速下降的原因.
用基于密度汎函理論的第一性原理方法研究瞭 Nb(110)錶麵氧原子覆蓋度分彆為0.25、0.50、0.75和1.00單層時對氧分子解離的影響.結果錶明,在氧原子覆蓋度不大于0.50單層時,由于氧分子和錶麵鈮原子的較彊相互作用,使它們能夠自髮解離.然而在氧原子覆蓋度為0.75單層時,氧分子隻能夠在未佔據的洞位附近解離,同時髮生嚴重的晶格畸變.在形成一箇氧原子單層後(1.00單層),氧分子隻能弱吸附在Nb(100)錶麵上,此時氧原子嚮內擴散成為氧分子繼續解離的速率決定步驟.這些結果從理論上解釋瞭在形成一箇氧原子單層後, Nb(110)錶麵氧分子吸收速率迅速下降的原因.
용기우밀도범함이론적제일성원리방법연구료 Nb(110)표면양원자복개도분별위0.25、0.50、0.75화1.00단층시대양분자해리적영향.결과표명,재양원자복개도불대우0.50단층시,유우양분자화표면니원자적교강상호작용,사타문능구자발해리.연이재양원자복개도위0.75단층시,양분자지능구재미점거적동위부근해리,동시발생엄중적정격기변.재형성일개양원자단층후(1.00단층),양분자지능약흡부재Nb(100)표면상,차시양원자향내확산성위양분자계속해리적속솔결정보취.저사결과종이론상해석료재형성일개양원자단층후, Nb(110)표면양분자흡수속솔신속하강적원인.
The effects of oxygen atom coverage on the dissociation of O2 molecules at the Nb(110) surface were investigated using density functional theory (DFT) methods. The dissociation of O2 molecules is facile at low O coverages [Θ≤0.50 monolayer (ML)] because of the strong electronic interaction between O2 molecules and the Nb substrate. At a coverage of 0.75 ML, O2 molecules next to unoccupied distorted four-fold (H4d) sites only dissociate with severe lattice distortions. However, the inward diffusion of O atoms is the rate limiting step for the dissociation of O2 molecules after adsorption of 1.00 ML O atoms. Overal , our theoretical study provides a rationale for the experimental result that the dissociation of O2 molecules decreases markedly after rapid adsorption of 1.00 ML O atoms on the low index Nb surfaces.
