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Why pressure induces an abrupt structural rearrangement in PdTe2 but not in PtTe2

机译：为什么压力会在PdTe2中引发突然的结构重排，但在PtTe2中却不会引起突变

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High-pressure X-ray diffraction measurements were carried Out for polymeric CdI2-type compounds MTe2 (M = Pt, Pd) to investigate if they undergo a structural phase transition under pressure as does IrTe2. Up to 27 GPa at room temperature PtTe2 does not undergo any structural phase transition. In contrast, however, an abrupt change in the inter-atomic distances occurs in PdTe2 above 15.7 GPa at room temperature, and above 5 GPa at 300 degrees C, but the volume vs. pressure curve exhibits no discontinuity. To account for the differences between the isostructural compounds PtTe2, PdTe2 and IrTe2, their electronic structures and bonding were analyzed on the basis of first principles electronic band structure calculations. (c) 2005 Elsevier Inc. All rights reserved.

机译：对聚合的CdI2型化合物MTe2（M = Pt，Pd）进行了高压X射线衍射测量，以研究它们是否像IrTe2一样在压力下经历结构相变。在室温下高达27 GPa的PtTe2不会发生任何结构相变。然而，相比之下，在室温下高于15.7 GPa的PdTe2和在300摄氏度下高于5 GPa的PdTe2中，原子间距离发生突然变化，但是体积与压力的关系曲线没有间断。为了解释同构化合物PtTe2，PdTe2和IrTe2之间的差异，在第一原理电子能带结构计算的基础上分析了它们的电子结构和键合。（c）2005 Elsevier Inc.保留所有权利。

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来源
《International Journal of Quantum Chemistry》 |2005年第6期|共7页
作者
Soulard C; Petit PE; Deniard P; Evain M; Jobic S; Whangbo MH; Dhaussy AC;
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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
关键词
PdTe2; PtTe2; X-ray diffraction; ELECTRONIC BAND-STRUCTURE; CRYSTAL-STRUCTURE; RELATIVE STABILITIES; TELLURIUM; PHASE; DICHALCOGENIDES; SCHEME; IRTE2;

机译：PdTe2;PtTe2;X射线衍射;电子能带结构;晶体结构;相对稳定性;碲;相;二硫键;方案;IRTE2;

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1. Why pressure induces an abrupt structural rearrangement in PdTe2 but not in PtTe2 [J] . Soulard C, Petit PE, Deniard P, International Journal of Quantum Chemistry . 2005,第6期

机译：为什么压力会在PdTe2中引发突然的结构重排，但在PtTe2中却不会引起突变
2. Abrupt Emergence of Pressure-Induced Superconductivity of 34 K in SrFe2As2: A Resistivity Study under Pressure [J] . Kotegawa H, Sugawara H, Tou H Journal of the Physical Society of Japan . 2009,第1期

机译：SrFe2As2中压力诱导的34 K超导突然出现：在压力下的电阻率研究
3. Structural transformations in crystals induced by radiation and pressure. Part 3. The pressure-induced structural changes versus the rate of the Norrish-Yang reaction in crystals [J] . Konieczny Krzysztof, Bakowicz Julia, Turowska-Tyrk Ilona Journal of Photochemistry and Photobiology, A. Chemistry . 2016,第Null期

机译：辐射和压力引起的晶体结构转变。第3部分。压力引起的结构变化与晶体中诺里斯·杨反应的速率
4. Complex study of H-induced structural rearrangements in FeZr glasses [C] . Balazs Vehovszky, Pavel Kamasa, Jozef Kovac, Hungarian conference on materials science . 2013

机译：Fe锆玻璃中H诱导的结构重排的复杂研究
5. Calcium-Induced Structural Rearrangements Release Autoinhibition in the Rap-GEF, CalDAG-GEFI [D] . Cook, Aaron A. 2018

机译：Rap-GEF，CalDAG-GEFI中钙诱导的结构重排释放自动抑制
6. Hydrogen Induced Abrupt Structural Expansion at High Temperatures of a Ni32Nb28Zr30Cu10 Membrane for H2 Purification [O] . Oriele Palumbo, Francesco Trequattrini, Madhura Hulyalkar, 2016

机译：氢引起的氢气纯化的Ni32Nb28Zr30Cu10膜在高温下的突然结构扩展
7. Abrupt Emergence of Pressure-Induced Superconductivity of 34 K in SrFe2As2: A Resistivity Study under Pressure [O] . Kotegawa, H., Sugawara, H., Tou, H. 2008

机译：压力诱导34 K的超导电性突然出现 srFe2as2：压力下的电阻率研究

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