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“…Both intra or intermolecular magnetic exchange phenomena are of interest within the theory of molecular magnetism, copper(II)-carboxylates as the foremost class of magnetically coupled systems explored until now have extremely allowed to generate great number of diverse magnetostructural informations and correlations [5][6][7][8][9][10][11][12][13][14][15][16][17][18]. As of copper(II)-acetate hydrate which is the first binuclear copper(II) complex where the intramolecular magnetic exchange coupling was first recognized [18,19], almost countless examples of bridged copper(II)-carboxylates displaying different types of magnetic exchanges with various bridging modes of highly versatile carboxylate linkers appeared since then in the literature [6][7][8]10,[13][14][15][16][20][21][22]. In these complexes, the most common observed bridging modes are syn-syn, anti-anti, syn-anti and monoatomic bridges each demonstrating varying magnetic superexchange pathways [8,23].…”
mentioning
confidence: 99%
“…Both intra or intermolecular magnetic exchange phenomena are of interest within the theory of molecular magnetism, copper(II)-carboxylates as the foremost class of magnetically coupled systems explored until now have extremely allowed to generate great number of diverse magnetostructural informations and correlations [5][6][7][8][9][10][11][12][13][14][15][16][17][18]. As of copper(II)-acetate hydrate which is the first binuclear copper(II) complex where the intramolecular magnetic exchange coupling was first recognized [18,19], almost countless examples of bridged copper(II)-carboxylates displaying different types of magnetic exchanges with various bridging modes of highly versatile carboxylate linkers appeared since then in the literature [6][7][8]10,[13][14][15][16][20][21][22]. In these complexes, the most common observed bridging modes are syn-syn, anti-anti, syn-anti and monoatomic bridges each demonstrating varying magnetic superexchange pathways [8,23].…”
mentioning
confidence: 99%
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