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有机膦酸构筑的多钨氧簇稀土化合物的设计合成、结构及性质 被引量:1

Synthesis, structure and properties of a Pr-containing organophosphonate-functionalized polyoxotungstate
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摘要 在常规水溶液条件下,选择介稳态的前驱体K14[As2W19O67(H2O)]与配体羟基乙叉二膦酸(HEDP)及稀土化合物反应,合成了一例有机膦酸构筑的多钨氧簇稀土化合物Cs H[Pr(H2O)4(AsW9O33)(W2O3)(O3PCOHCH3PO3)Pr(H2O)7]2?19H2O(1),并通过单晶X射线衍射分析、元素分析、傅里叶红外光谱分析等对其结构进行了表征.晶体解析表明,化合物1由1个S形结构框架{[(As W9O33)(W2O3)]2}, 2个有机磷酸基团{O3PCOHCH3PO3}和4个Pr3+离子通过一定的方式键连形成三维框架结构.磁学性质研究表明,化合物1呈现出反铁磁性耦合作用.荧光性质研究表明,化合物1在近红外区呈现出双寿命发光,其中τ1=4.76μs(35.53%),τ2=9.71μs(64.4%). Polyoxometalates(POMs),a unique class of metal-oxygen clusters with an oxygen-rich surface and high negative charge,have attracted great attention due to their unique structural variety and excellent physicochemical properties.In addition,organophosphonates,as an important kind of organic ligands with wide various and rich coordination modes,have lots of potential applications in materials,medicine and catalysis.Therefore,the synthesis of organophosphonates-based POMs with novel structure and good property is of contemporary interest.Polyoxotungstates(POTs)are viewed as one of the most important and vibrant subfamilies in POM chemistry and have been increasingly used as building blocks for the construction of systems with inorganic-organic hybrid compounds.Nevertheless,compared to the abundant derivatives of polyoxomolybdates and polyoxovanadates,organophosphonate-based POTs have been rarely studied.It is commonly that most of the structures just anchor some common transition metals(Co,Ni,Cu)or even do not anchor any metal ions.In contrast,POTs incorporated with lanthanide(Ln)ions and organophosphonate ligands have been rarely explored.Up to now,only a series of Ln-containing organophosphonatebased POTs have been reported.Moreover,the Ln ions possess the 4f electrons,leading to interesting properties such as magnetic and photoluminescent properties.It appeals us to devote in investigating the interesting Ln-containing organophosphonate-functionalized POTs.Herein,a new organic-inorganic hybrid Cs H[Pr(H2O)4(AsW9O(33))(W2O3)(O3PCOHCH3PO3)Pr(H2O)7]2?19H2O(1)has been successfully synthesized by reaction of K(14)[As2W(19)O(67)(H2O)],HEDP and PrCl3?6H2O in a conventional aqueous method.This structure was structurally characterized by single-crystal X-ray diffraction,TG analysis,PXRD and IR spectrum.The results show that compound 1 exhibits a three-dimensional(3D)framework structure which is consist of the S-shaped inorganic building block{[(AsW9O(33))(W2O3)]2},four Pr ions and two organophosphonate groups{O3PCOHCH3PO3}.Variable temperature magnetic susceptibility of the solid state 1 was also measured at 1.8-300 K with an applied field of 1 kOe.At 300 K,theχmT product is 6.42 cm^3 K mol^-1,close to the value of 6.40 cm^3 K mol^-1expected for four uncoupled Pr^III ions(L=5,3H4,g=4/5,S=1).With cooling,theχmT value decreases continuously down to a value of 5.16 cm^3 K mol^-1 at 101 K.As the temperature further decreases,theχmT value starts to decrease rapidly and reaches a minimum of 0.43 cm^3 mol^-1 K at 1.8 K.This behavior indicates the antiferromagnetic exchange interactions and which is further confirmed by a negative Weiss constantθ=-39.02 K derived by fitting the Curie-Weiss law to the magnetic data between 68 and 300 K The near-infrared(NIR)emission spectra of 1 was also investigated at room temperature.Under the excitation at 448 nm,the NIR emission spectrum of 1 consists of three characteristic peaks of the Pr^III ions at 871 nm(^ID2→^3F2),1017 nm(^ID2→^3F4)and 1515 nm(^1D2→^1G4).Moreover,the NIR decay curve of 1 is fitted into a second-order exponential function with lifetimes ofτ1=4.76μs(35.53%),τ2=9.71μs(64.47%).In the following work,other bridging ligand with different functional groups such as amino or carboxyl-functionalized organophosphonate will be introduced into this system to explore much more Ln-containing organophosphonate-based POTs with intriguing structures and properties.
作者 杨宗斐 马鹏涛 王敬平 牛景杨 Zongfei Yang;Pengtao Ma;Jingping Wang;Jingyang Niu(Henan Key Laboratory of Polyoxometalate Chemistry,Institute of Molecular and Crystal Engineering,College of Chemistry and Chemical Engineering,Henan University,Kaifeng 475004,China)
出处 《科学通报》 EI CAS CSCD 北大核心 2018年第32期3366-3372,共7页 Chinese Science Bulletin
基金 国家自然科学基金(21571050 21573056 21771053 21771054)资助
关键词 多金属氧簇 有机膦酸 晶体结构 稀土 polyoxometalate organophosphonate crystal structure lanthanide ion
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