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Formation of a four-bladed waterwheel-type chloro-bridged dicopper(ii) complex with dithiamacrocycle via double exo-coordination.

Seulgi KimIn Hyeok ParkHan-Byeol ChoiHuiyeong JuEunji LeeTun Seng HerngJun DingJong-Hwa JungShim Sung Lee
Published in: Dalton transactions (Cambridge, England : 2003) (2020)
A combination of O3S2-macrocycles incorporating different sulfur-to-sulfur separations (S-(CH2)n-S, L1: n = 2, L2: n = 3) and copper(ii) nitrate afforded new types of both monocopper(ii) and dicopper(ii) complexes, respectively. L1 gave a 1D coordination polymer [Cu2(L1)2(NO3)4]n (1) based on a convergent exo-coordination mode while L2 resulted in the formation of a divergent exo/exo-coordinated dicopper(ii) complex, [Cu2(L2ox)4(μ-Cl)](NO3)4 (2), whose shape resembles a four-bladed waterwheel in which in situ oxidized macrocycles (L2ox) act as the blades and a CuII-(μ-Cl)-CuII entity corresponds to the axle shaft. The chloro-bridging ligand is derived from the dichloromethane solvent and its arrangement is held together by C-HCl- H-bonds. Compound 2 shows a weak antiferromagnetic property via the CuII-(μ-Cl)-CuII entity.
Keyphrases
  • nitric oxide
  • drinking water
  • room temperature
  • mass spectrometry
  • capillary electrophoresis