将新客体分子引入 BEDT-TTF 自由基阳离子盐与三(草酸)铁酸酯中

IF 2.6 3区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY

CrystEngComm Pub Date : 2024-03-07 DOI:10.1039/D4CE00099D

Toby J. Blundell, Elizabeth K. Rusbridge, Rebecca E. Pemberton, Michael J. Brannan, Alexander L. Morritt, Joseph O. Ogar, John D. Wallis, Hiroki Akutsu, Yasuhiro Nakazawa, Shusaku Imajo and Lee Martin

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引用次数: 0

摘要

式β′′-(BEDT-TTF)4[(H3O)Fe(C2O4)3]-guest的激阳离子盐产生了大量超导体，并为在同一种多功能材料中引入磁性和手性提供了途径。在这些盐中发现了 b 轴长度与超导 Tc 之间的关系。通过引入较大的客体分子（如苯甲腈和硝基苯）来增加 b 轴长度，可获得该系列盐中最高的超导 Tcs。吡啶等较小的客体没有显示出超导转变，而比硝基苯大的不对称客体则产生了不同的双层结构。其他潜在的客体分子则受限于其作为溶剂通过电结晶技术生长晶体的能力。本文报告了一种将客体分子引入晶体的方法，这些客体分子是晶体生长溶剂 1,2,4-三氯苯：乙醇中的固体或液体添加剂。我们利用客体分子甲苯、苯酚、苯甲醛、4-溴苯甲醛和曲酸，展示了五种新的 BEDT-TTF 自由基阳离子盐与三(草酸)铁阴离子的晶体结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Introduction of new guest molecules into BEDT-TTF radical-cation salts with tris(oxalato)ferrate†

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Introduction of new guest molecules into BEDT-TTF radical-cation salts with tris(oxalato)ferrate†

Radical-cation salts of formula β′′-(BEDT-TTF)₄[(H₃O)Fe(C₂O₄)₃]·guest have produced a large number of superconductors and provided a route to introduce magnetism and chirality into the same multifunctional material. A relationship has been found in these salts between the length of the b axis and the superconducting Tc. Increasing the b axis length by introducing larger guest molecules, such as benzonitrile and nitrobenzene, gives the highest superconducting Tcs in this family of salts. Smaller guests such as pyridine show no superconducting transition, whilst asymmetrical guests which are larger than nitrobenzene have given a different bilayered structure. Other potential guest molecules have been limited by their ability to be used as the solvent in which the crystals are grown via electrocrystallisation. This paper reports a method which introduces guest molecules into the crystal which are a solid or liquid additive within the crystal-growing solvent 1,2,4-trichlorobenzene:ethanol. We present the crystal structures of five new BEDT-TTF radical-cation salts with tris(oxalato)ferrate anions using guest molecules toluene, phenol, benzaldehyde, 4-bromobenzaldehyde, and kojic acid.