Control of spin switchability and electron transfer in Prussian blue analogues: Insights into secondary interactions and chemical modifications

IF 20.3 1区 化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR
Jyoti Yadav, Ranjan Kharel, Sanjit Konar
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引用次数: 0

Abstract

The research progress on 3D Prussian blue analogues (PBAs) and their successful downsizing using capping ligands to achieve 2D, 1D, and even discrete molecular analogues has greatly enhanced our understanding of the switchable phenomena such as spin crossover (SCO) and electron transfer coupled spin transition (ETCST) in these systems. These molecules exhibit diverse optical and magnetic properties, making them highly attractive for next-generation compact smart devices. However, better control over switchability is necessary to fulfil specific purposes. While substantial work over the past three decades has elucidated the rationale behind ETCST occurrence in some complexes but not in others, parallel investigations into the peculiar ETCST behaviour in response to subtle changes in ligand field, reaction conditions, and guest molecule size have provided improved control over parameters like H-bonding and π⋅⋅⋅π interactions. Efforts to increase the operational temperature range for chemical, thermal, piezo, and photo-responsive switchability of these molecules to practical levels and preserve their pristine properties after integration into devices require further exploration to unlock the optimisation possibilities. This review discusses factors affecting various stimuli-responsive ETCST behaviour in both solid (ligand field strength, lattice solvents, counter-ions and crystal packing) and solution phases (solvent polarity and protonation/deprotonation) with representative examples. We envisage that a better understanding of the factors controlling ETCST properties will enable precise design and targeted synthesis of these molecules.

Abstract Image

Abstract Image

控制普鲁士蓝类似物的自旋切换性和电子转移:深入了解次级相互作用和化学修饰
三维普鲁士蓝类似物(PBAs)的研究进展以及利用封端配体成功缩小其尺寸以实现二维、一维甚至离散分子类似物的研究进展,极大地增强了我们对这些系统中自旋交叉(SCO)和电子转移耦合自旋转变(ETCST)等可切换现象的理解。这些分子表现出多种光学和磁学特性,对下一代紧凑型智能设备极具吸引力。然而,要实现特定目的,必须更好地控制可切换性。过去三十年的大量研究工作已经阐明了某些复合物出现 ETCST 而另一些复合物不出现 ETCST 的原因,与此同时,针对配体场、反应条件和客体分子大小的微妙变化所产生的特殊 ETCST 行为进行的平行研究,改进了对 H 键和π⋅π⋅相互作用等参数的控制。要将这些分子的化学、热、压电和光响应开关性的工作温度范围提高到实用水平,并在集成到器件中后保持其原始特性,还需要进一步探索,以挖掘优化的可能性。本综述通过代表性实例讨论了影响固相(配体场强、晶格溶剂、反离子和晶体结构)和溶液相(溶剂极性和质子化/去质子化)中各种刺激响应型 ETCST 行为的因素。我们设想,如果能更好地了解控制 ETCST 特性的因素,就能对这些分子进行精确设计和有针对性的合成。
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来源期刊
Coordination Chemistry Reviews
Coordination Chemistry Reviews 化学-无机化学与核化学
CiteScore
34.30
自引率
5.30%
发文量
457
审稿时长
54 days
期刊介绍: Coordination Chemistry Reviews offers rapid publication of review articles on current and significant topics in coordination chemistry, encompassing organometallic, supramolecular, theoretical, and bioinorganic chemistry. It also covers catalysis, materials chemistry, and metal-organic frameworks from a coordination chemistry perspective. Reviews summarize recent developments or discuss specific techniques, welcoming contributions from both established and emerging researchers. The journal releases special issues on timely subjects, including those featuring contributions from specific regions or conferences. Occasional full-length book articles are also featured. Additionally, special volumes cover annual reviews of main group chemistry, transition metal group chemistry, and organometallic chemistry. These comprehensive reviews are vital resources for those engaged in coordination chemistry, further establishing Coordination Chemistry Reviews as a hub for insightful surveys in inorganic and physical inorganic chemistry.
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