无机化学学报
無機化學學報
무궤화학학보
JOURNAL OF INORGANIC CHEMISTRY
2010年
12期
2221-2226
,共6页
铜(Ⅱ)三元配合物%晶体结构%弱相互作用%电化学性质
銅(Ⅱ)三元配閤物%晶體結構%弱相互作用%電化學性質
동(Ⅱ)삼원배합물%정체결구%약상호작용%전화학성질
copper(Ⅱ) ternary complexe%crystal structure%weak interactions%electrochemical property
合成了一个新颖的含ONN席夫碱配体N-水杨醛基-2-氨乙基苯并咪唑(HL),并在甲醇体系中合成了它的配合物ICu(L)(bipy)]ClO4(bipy为2,2'-联吡啶).利用X-射线单晶衍射法测定了配合物的晶体结构.配合物[Cu(L)(bipy)lClO4的晶体属于单斜晶系,C2/c空间群,a=2.585 5(8)nm,b=1.4355(5)nm,c=1.6242(5)nm,β=124.434(5)°,Z=8.在配合[Cu(L)(bipy)lClO4中,每个铜离子的配位数为5,分别和配体L的1个氧原子和2个氮原子及2,2'-联吡啶的2个氮原子配位,形成畸变的三角双锥配位环境.配合物[Cu(L)(bipy)]ClO4巾的氧键和π-π相互作用将配合物[Cu(L)(bipy)]ClO4连接成二维网络结构.用红外光谱、紫外-可见光谱对配合[Cu(L)(bipy)]ClO4进行了表征,并用循环伏安法对配合物进行了电化学性质的研究.
閤成瞭一箇新穎的含ONN席伕堿配體N-水楊醛基-2-氨乙基苯併咪唑(HL),併在甲醇體繫中閤成瞭它的配閤物ICu(L)(bipy)]ClO4(bipy為2,2'-聯吡啶).利用X-射線單晶衍射法測定瞭配閤物的晶體結構.配閤物[Cu(L)(bipy)lClO4的晶體屬于單斜晶繫,C2/c空間群,a=2.585 5(8)nm,b=1.4355(5)nm,c=1.6242(5)nm,β=124.434(5)°,Z=8.在配閤[Cu(L)(bipy)lClO4中,每箇銅離子的配位數為5,分彆和配體L的1箇氧原子和2箇氮原子及2,2'-聯吡啶的2箇氮原子配位,形成畸變的三角雙錐配位環境.配閤物[Cu(L)(bipy)]ClO4巾的氧鍵和π-π相互作用將配閤物[Cu(L)(bipy)]ClO4連接成二維網絡結構.用紅外光譜、紫外-可見光譜對配閤[Cu(L)(bipy)]ClO4進行瞭錶徵,併用循環伏安法對配閤物進行瞭電化學性質的研究.
합성료일개신영적함ONN석부감배체N-수양철기-2-안을기분병미서(HL),병재갑순체계중합성료타적배합물ICu(L)(bipy)]ClO4(bipy위2,2'-련필정).이용X-사선단정연사법측정료배합물적정체결구.배합물[Cu(L)(bipy)lClO4적정체속우단사정계,C2/c공간군,a=2.585 5(8)nm,b=1.4355(5)nm,c=1.6242(5)nm,β=124.434(5)°,Z=8.재배합[Cu(L)(bipy)lClO4중,매개동리자적배위수위5,분별화배체L적1개양원자화2개담원자급2,2'-련필정적2개담원자배위,형성기변적삼각쌍추배위배경.배합물[Cu(L)(bipy)]ClO4건적양건화π-π상호작용장배합물[Cu(L)(bipy)]ClO4련접성이유망락결구.용홍외광보、자외-가견광보대배합[Cu(L)(bipy)]ClO4진행료표정,병용순배복안법대배합물진행료전화학성질적연구.
The crystal structure of the complex [Cu(L)(bipy)]ClO4 (HL=N-salicylidene-2-aminoethylbenzimidazole, bipy =2,2'-bipyridine) has been determined by X-ray diffraction method and refined by full-matrix least-squares methods to R =0.033 9 and wR2=0.0804 using 5079 reflections withI>2σ(I). The compound crystallizes in the monoclinic system, space group C2/c, with a=2.585 5(8) nm, 6=1.435 5(5) nm, c=1.624 2(5) nm, β= 124.434(5) and Z=8. Each Cu(Ⅱ) ion adopts distorted N4O trigonal bipyramidal coordination geometry. The hydrogen-bonding and π-π interactions extend the complex into a quasi two-dimensional networks, and such weak interactions further stabilized the complex. FTIR, UV-Vis and CV were also used to characterize the complex. CCDC: 275659.
