Temperature controlled formation of polar copper phosphonates showing large dielectric anisotropy and a dehydration-induced switch from ferromagnetic to antiferromagnetic interactions†,10.1039/C8CC02819B

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Lactoyl-CoA 全氟丁基戊烷白叶藤碱全氟己基辛烷新白叶藤碱壳寡糖特色专题-生物多肽

Temperature controlled formation of polar copper phosphonates showing large dielectric anisotropy and a dehydration-induced switch from ferromagnetic to antiferromagnetic interactions†

Peng-Fei Wang,Song-Song Bao,Xin-Da Huang,T. Akutagawa,Li-Min Zheng

Chemical Communications Pub Date : 05/23/2018 00:00:00 , DOI:10.1039/C8CC02819B

Abstract

The reaction of copper(II) chloride with 2-carboxyphenylphosphonic acid (2-cppH₃) under hydrothermal conditions at 100 °C results in the formation of a polar compound, Cu₃(2-cpp)₂(H₂O)₅ (1), which shows large dielectric anisotropy. A similar reaction at 140 °C results in a centrosymmetric phase, Cu₃(2-cpp)₂(H₂O)₂ (2). Compound 1 can convert into 2 upon increasing the reaction temperature under hydrothermal conditions, and further to Cu₃(2-cpp)₂ (3) upon thermal treatment at 240 °C. This process is accompanied by a switch from ferromagnetic in 1 to antiferromagnetic interactions in 2 and 3.