耦合到对称性破缺的两步滞后锰自旋交叉化合物中的热场和磁场切换

Thermal and Magnetic Field Switching in a Two-Step Hysteretic Mn Spin Crossover Compound Coupled to Symmetry Breakings.

作者信息

Dobbelaar Emiel, Jakobsen Vibe B, Trzop Elzbieta, Lee Minseong, Chikara Shalinee, Ding Xiaxin, Müller-Bunz Helge, Esien Kane, Felton Solveig, Carpenter Michael A, Collet Eric, Morgan Grace G, Zapf Vivien S

机构信息

School of Chemistry, University College Dublin, Science Centre Belfield, Dublin, 4, Ireland.

Current address: Technische Universität Kaiserslautern, Fachbereich Chemie, Erwin-Schrödinger-Strasse 52-54, 67655, Kaiserslautern, Germany.

出版信息

Angew Chem Int Ed Engl. 2022 Jan 21;61(4):e202114021. doi: 10.1002/anie.202114021. Epub 2021 Dec 8.

DOI:10.1002/anie.202114021

PMID:34761504

Abstract

A Mn spin crossover complex with atypical two-step hysteretic thermal switching at 74 K and 84 K shows rich structural-magnetic interplay and magnetic-field-induced spin state switching below 14 T with an onset below 5 T. The spin states, structures, and the nature of the phase transitions are elucidated via X-ray and magnetization measurements. An unusual intermediate phase containing four individual sites, where are in a pure low spin state, is observed. The splitting of equivalent sites in the high temperature phase into four inequivalent sites is due to a structural reorganization involving a primary and a secondary symmetry-breaking order parameter that induces a crystal system change from orthorhombic→monoclinic and a cell doubling. Further cooling leads to a reconstructive phase transition and a monoclinic low-temperature phase with two inequivalent low-spin sites. The coupling between the order parameters is identified in the framework of Landau theory.

摘要

一种锰自旋交叉配合物在74 K和84 K表现出非典型的两步滞后热开关，显示出丰富的结构 - 磁相互作用，并且在低于14 T时磁场诱导自旋态切换，起始场低于5 T。通过X射线和磁化测量阐明了自旋态、结构和相变的性质。观察到一个不寻常的中间相，其中包含四个单独的位点，处于纯低自旋态。高温相中等价位点分裂为四个不等价位点是由于结构重组，涉及一个主要和一个次要的对称破缺序参量，这导致晶体系统从正交晶系变为单斜晶系并使晶胞翻倍。进一步冷却导致重构相变和具有两个不等价低自旋位点的单斜低温相。在朗道理论框架内确定了序参量之间的耦合。

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耦合到对称性破缺的两步滞后锰自旋交叉化合物中的热场和磁场切换

Thermal and Magnetic Field Switching in a Two-Step Hysteretic Mn Spin Crossover Compound Coupled to Symmetry Breakings.

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