units, respectively, with different symmetries and different oxidation states of the manganese ions. Their structural studies reveal a significant contribution of the parent rings for fusing oxime groups, different non-coordinating groups and anions to the formation of different cluster skeletons. Their magnetic properties were investigated and simulated, which revealed the presence of dominant antiferromagnetic
为了通过使用具有不同非配位基团的
肟配体来调节结构,通过将
肟基(N-OH)融合到不同的非配位基团上,设计了三种芳香族
肟配体。它们与相应的
锰(反应II)盐,得到5个
锰簇[
锰III 3(μ 3 -O)(L 1)3(
DMF)(H 2 O)3 CL]·2
DMF·CH 3 OH(1), [
锰III 3(μ 3 -O)(L 2)3(OAC)(CH 3 OH)2 ](2),[
锰III 6(μ 3 -O) 2(L 2) 6(H 2 O)(PY) 7 ](CLO 4) 2 ·
吡啶·0.5CH 3 OH·2H 2 O( 3),[
锰III 8 Ò 4(L 2) 8(
DMF) 4 ]·
DMF·6CH 3 CN( 4)和[Mn II 4 Mn III 4 O 4(L 3) 12 ]·3
DMF·6H 2 O( 5),其中H 2 L 1,H 2 L 2和HL 3分别代表
茚满-1,2-,3-三酮-1,2-二
肟,啶醌二
肟和9