he 2p3/2 binding energy shift of Fe surface and Fe nanoparticles
he 2p3/2 binding energy shift of Fe surface and Fe nanoparticles
nalysis of the 2p3/2 core-level shift of Fe surface and nanoparticles based on the bond order-length-strength (BOLS) correlation [Sun CQ, Prog Solid State Chem 35, 1 (2007)] has turned out that the Fe 2p3/2 energy shifts positively by 2.17 eV from the atomic value of 704.52 eV to the bulk of 706.69 eV and that a further 0.32 and 0.16 eV shift occurs, respectively, to the top and the second atomic layers. Consistency between theory and experiments clarifies the dominance of the broken-bond-induced local strain and quantum trapping in perturbing the Hamiltonian and hence the observed Fe 2p3/2 energy shifts.
nalysis of the 2p3/2 core-level shift of Fe surface and nanoparticles based on the bond order-length-strength (BOLS) correlation [Sun CQ, Prog Solid State Chem 35, 1 (2007)] has turned out that the Fe 2p3/2 energy shifts positively by 2.17 eV from the atomic value of 704.52 eV to the bulk of 706.69 eV and that a further 0.32 and 0.16 eV shift occurs, respectively, to the top and the second atomic layers. Consistency between theory and experiments clarifies the dominance of the broken-bond-induced local strain and quantum trapping in perturbing the Hamiltonian and hence the observed Fe 2p3/2 energy shifts.
王玲玲、王艳、孙长庆
物理学化学晶体学
XPSSurface core level shiftnanostructure
XPSSurface core level shiftnanostructure
王玲玲,王艳,孙长庆.he 2p3/2 binding energy shift of Fe surface and Fe nanoparticles[EB/OL].(2009-07-06)[2025-05-28].http://www.paper.edu.cn/releasepaper/content/200907-138.点此复制
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