材料的宏观性能源于根本的原子尺度细节,但对于绝缘体来说,解析表面结构仍然是一个挑战。
该文中,研究人员使用具有原子定义尖端的非接触式原子力显微镜对α-氧化铝(α-Al2O3)的基底(0001)平面进行了成像。表面形成了一个复杂的(√31×√31)R±9°重建。
单个氧和铝表面原子的横向位置直接来自实验,研究人员通过计算建模确定了这些如何连接到下面的晶体块。在重组之前,表面Al原子呈现不利的三重平面配位;重建能够与次表面O再混合,从而获得可观的能量增益。重建的表面保持Al2O3化学计量比。
附:英文原文
Title: Stoichiometric reconstruction of the Al2O3(0001) surface
Author: Johanna I. Hütner, Andrea Conti, David Kugler, Florian Mittendorfer, Georg Kresse, Michael Schmid, Ulrike Diebold, Jan Balajka
Issue&Volume: 2024-09-13
Abstract: Macroscopic properties of materials stem from fundamental atomic-scale details, yet for insulators, resolving surface structures remains a challenge. We imaged the basal (0001) plane of α–aluminum oxide (α-Al2O3) using noncontact atomic force microscopy with an atomically defined tip apex. The surface formed a complex (√31 × √31)R±9° reconstruction. The lateral positions of the individual oxygen and aluminum surface atoms come directly from experiment; we determined with computational modeling how these connect to the underlying crystal bulk. Before the restructuring, the surface Al atoms assume an unfavorable, threefold planar coordination; the reconstruction allows a rehybridization with subsurface O that leads to a substantial energy gain. The reconstructed surface remains stoichiometric, Al2O3.
DOI: adq4744
Source: https://www.science.org/doi/10.1126/science.adq4744
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