Why is it that ABO3 perovskites generally do not exhibit negative thermal expansion (NTE) over a wide temperature range, whereas layered perovskites of the same chemical family often do? It is generally accepted that there are two key ingredients that determine the extent of NTE: the presence of soft phonon modes that drive contraction (have negative Grüneisen parameters); and anisotropic elastic compliance that predisposes the material to the deformations required for NTE along a specific axis. This difference in thermal expansion properties is surprising since both ABO3 and layered perovskites often possess these ingredients in equal measure in their high-symmetry phases. Using first principles calculations and symmetry analysis, we show that in layered perovskites there is a significant enhancement of elastic anisotropy due to symmetry breaking that results from the combined effect of layering and condensed rotations of oxygen octahedra. This feature, unique to layered perovskites of certain symmetry, is what allows uniaxial NTE to persist over a large temperature range. This fundamental insight means that symmetry and the elastic tensor can be used as descriptors in high-throughput screening and to direct materials design.udud
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机译:为什么ABO3钙钛矿在宽温度范围内通常不显示负热膨胀(NTE),而同一化学族的层状钙钛矿却经常显示负热膨胀(NTE)?人们普遍认为,有两种决定NTE程度的关键因素:驱动收缩的软声子模式(具有负的Grüneisen参数);各向异性的弹性柔韧性使材料易于沿着特定轴发生NTE所需的变形。由于ABO3和层状钙钛矿通常在其高对称相中均具有相等的量度,因此这种热膨胀特性的差异令人惊讶。使用第一性原理计算和对称性分析,我们发现在钙钛矿层状结构中,由于氧八面体的分层和凝结旋转的综合作用导致的对称性断裂,弹性各向异性得到了显着增强。该特性是某些对称的层状钙钛矿所独有的,这是使单轴NTE在较大温度范围内持续存在的原因。这种基本见解意味着对称性和弹性张量可以用作高通量筛选中的描述子,并指导材料设计。 ud ud
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