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    2,2′-聯(lián)喹啉-4,4′-二羧酸構(gòu)筑的一維鈷(Ⅱ)配位聚合物
    
                
    2012-11-09 08:06:02唐云志楊燕明漆婷婷黃廣華溫和瑞
    
                
    無機化學學報 2012年6期 
    關(guān)鍵詞:二羧酸聯(lián)吡啶氧原子
    
                    
    唐云志 楊燕明 曹 贊 漆婷婷 黃廣華 溫和瑞
    (江西理工大學冶金與化學工程學院,贛州 341000)
    2,2′-聯(lián)喹啉-4,4′-二羧酸構(gòu)筑的一維鈷(Ⅱ)配位聚合物
    唐云志*楊燕明 曹 贊 漆婷婷 黃廣華 溫和瑞
    (江西理工大學冶金與化學工程學院,贛州 341000)
    利用2,2′-聯(lián)喹啉-4,4′-二羧酸鈉 (Na2bqdc),2,2-聯(lián)吡啶與硫酸鈷在溶劑熱作用下合成了1個一維配位聚合物[Co(bqdc) (bipy)(H2O)]n(1)。通過元素分析、粉末衍射、紅外、紫外光譜對配合物進行了表征,利用X射線單晶衍射儀測定了其晶體結(jié)構(gòu)。中心CoⅡ離子分別與2個來自2,2-聯(lián)喹啉-4,4-二羧酸鈉配體的雙齒羧基氧原子和1個來自配體的單齒羧基氧原子、輔助配體2,2-聯(lián)吡啶上的2個N原子和1個水分子的氧原子配位,形成了1個稍微扭曲的八面體配位構(gòu)型。紫外光譜實驗表明,相對2,2′-聯(lián)喹啉-4,4′-二羧酸鈉配體,配合物的紫外光譜發(fā)生了少量的藍移。對該配合物多晶樣品的差熱分析(TGA)表明該化合物在217℃后開始分解。
    2,2′-聯(lián)喹啉-4,4′-二羧酸鈉;鈷配合物;晶體結(jié)構(gòu);紫外光譜
    0 Introduction
    Recently, metallic supramolecular chemistry dealing with the design of highly organized architectures based upon metal-ion-directed self-assembly processes have been received much interest[1-6].Especially,constructing metal-organic framework(MOF) with peculiar configuration structure and powerful photoelectric functional properties have become one of the hot topic in coordination chemistry[6-8].It′s wellknown,there are two necessary componentsfor constructing the inorganic supramolecular architectures:the suitably designed organic ligand and the metal ion.Because of the versatile coordination modes and potentialpropertiesin catalysis,magnetism, electrochemistry and ion exchange,N-containing and polybasic carboxylic acid ligands have afforded great success in this field.Considerable research efforts have been focused on the studies of polymeric frameworks with these kinds of ligands[3-10].As a new kind of N-containing and polybasic carboxylic acid ligands, Na2bqdc (Na2bqdc=2,2′-biquinoline-4,4-dicarboxylate disodium salt)possesses severaladvantages for constructing metal-organic frameworks(MOFs).Firstly, the biquinoline dicarboxylate ligand contains both nitrogen atoms and oxygen atoms,it may be used to constructed d-f heterometallic complexes[3-5];Secondly, the biquinoline dicarboxylate ligand possesses rigid and conjugated structure,its metal complex maybe obtain some interesting optical properties such as luminescent properties;Lastly,Ligand have multiple coordination sites can make the center atom links in different locus on thereby forming a high-dimension structure.During the past few years,a serial of metal complexes with biquinoline dicarboxylate ligand such as Cu,Zn,Mn, Ni and Co have been reported before[11-15],however,the metal complexes with second ligand 2,2′-bipyridine have not been reported yet.Under hydrothermal condition,utilizing 2,2′-biquinoline-4,4-dicarboxylate ligand (Na2bqdc)and CoSO4with 2,2′-bipyridine as auxiliary ligand, we synthesized a coordination polymer [Co(bqdc)(bipy)(H2O)]n,1.To our surprised,the crystal structure analysis shows that the coordination mode of biquinoline dicarboxylate ligand in title complex is different from other reported bqdc complexes such as Dai[14]and Luo′s work[15].Here we report its synthesis, characterization and solid state structure as well as thermal stability.
    1 Experimental
    1.1 Materials and measurements
    All the starting materials were purchased commercially and used without further purification.IR spectrum was recorded on an FTIR-8700 spectrometer with KBr pellets in the range of 4 000~400 cm-1.Elemental analysis was performed on a EuroEA3000 elemental analyzer.Single-crystal X-ray diffraction measurement was carried out on a Bruker SMART APXEⅡ diffractometer with Mo Kα radiation (λ= 0.071 073 nm).(TG)was performed on a TGA Q500 thermal analyzer under nitrogen atmosphere at a scan rate of 10℃·min-1.
    1.2 Synthesis of[Co(bqdc)(bipy)(H2O)]n(1)
    The synthetic of the title compound is shown in Scheme 1.A mixture of Na2bqdc(0.0776 g,0.2 mmol) and CoSO4·7H2O (0.056 2 g,0.2 mmol),2,2-pyridine (0.0312 g,0.2 mmol)were placed in a thick Pyrex tube (ca.20 cm).After addition of 1.5 mL water and 0.8 mL ethanol,the tube was frozen with liquid N2,evacuated under vacuum and sealed with a torch.The tube was then placed in an oven and heated at 140℃for two days to give red block crystals in 53%yield based on Na2bqdc.Elemental analysis calcd.(%):C 52.56,H 3.48,N 9.73;found(%):C 52.67,H 3.38,N 9.68.IR, (KBr,cm-1):3313(m),1631(s),1596(s),1548(vs),1521 (w),1 468(s),1 452(vs),1 323(m),1 247(m),1 197(m), 1 119(w),921(w),843(s),799(w),734(m),671(m),599 (m),536(w),451(w).
    Scheme 1 Preparation of compound 1
    1.3 Single crystal structure determination
    A red block-like crystal of 1 with dimensions of 0.25 mm×0.20 mm×0.16 mm was selected for data collection.The data were collected on a Bruker P4 diffractomerter with graphite-monochromated Mo Kα radiation(λ=0.071073 nm)at 292 K using the φ-ω scan technique.The reflection intensities were corrected for Lp and absorption effects.The crystal structure was solved using direct methods with the SHELXS-97 program[16].Subsequent difference Fourier syntheses enabled all non-hydrogen atoms to be located.All non hydrogen atoms were refined with anisotropic displacement parameters by full-matrix least-squares techniques[17].The hydrogen atom positions were fixed geometrically at calculated distances and allowed to ride on the parent carbon atoms for the refinement.Detailed information aboutthecrystaldataand structure determination for title compound are summarized in Table 1.Its selected atomic distances and bond angles are given in Table 2.
    CCDC:847230.
    Table 1 Crystal data and structure refinement for 1
    Table 2 Selected bond distances(nm)and angles(°)for 1
    2 Results and discussion
    2.1 Synthesis and IR spectra
    The IR spectrum of complex 1 shows three very strong peaks at 1 631(s),1 596(s),1 548(vs)cm-1combined with two moderately strong peaks at 1 468(s) and 1 452(s)cm-1suggesting that the carboxylic acid group of bqdc ligands have been deprotanted in 1[18].In addition,a broad peak at 3 300~3 500 cm-1suggests that there is coordinated or crystalline water in title compound.
    2.2 Crystal structures
    The one-dimensional structure of 1 was revealed by the X-ray single-crystal structure analysis.Crystallographic data of 1 (as shown in Table 1)indicates the crystal belongs to monoclinic system,space group P21/c and Z=4.Fig.1 presents the local coordination environments around the cobalt atoms.It can be best described as a distorted octahedral polyhedron which connected by one watermolecule,one bidentate chelating carboxylic group,one monodentate carboxylic group and two nitrogen atoms from the chelating bipyridine ligand through forming a five-membered ring.The Co(1) -O(2)distance(0.232 4(2)nm)is longer than that of Co(1)-O(3)#1(0.198 8(18)nm)suggesting that the Co center in 1 lies in a highly unsymmetrical fashion.All the bond distances of Co-O and Co(1)-N varied from 0.1988nm to 0.2324(2)nm and 0.2089(2)to 0.212 9(2) nm respectively,and well agree with their normal distances[18].Compared by 1,Dai et al.[14]have ever reported a compound[Co(bqdc)(phen)2(H2O)]n,(2)by hydrothermal reaction of Co(OAc)2·4H2O,phen and H2bqdc in a higher temperature[14].However,the structure of 2 contains double coordinated water molecules while 1 contains only one water molecule.
    Fig.1 Coordination environment of Co atom in compound 1
    Each bqdc2-ligand in 1 acting as tridentate bridging spacer link two different cobalt metals,thus resulting in the formation of one dimensional zigzag structure.All the auxiliary ligands 2,2′-bipyridine stand in the vertex of the catenarian structure(Fig.2). As we can see,for 1,two carboxylate groups of the bqdc2-ligand exhibit different coordination modes, namely one carboxylate group coordinated with a Co atom by bidentate chelating mode and the other one by monodentate mode(Scheme 1).Totally different from 1, in compound 2[14],all the carboxylic group of bqdc2-ligand adopt the same monodentate coordination modes by bonding two different cobalt metal,and on the contrary,in Luo et al′s work[15],both two carboxylate groups of each bqdc2-ligand coordinated with two metal atoms by bidentate chelating fashion to form helix-like chain.To our knowledge,all these kind of coordination modes of bqdc2-ligand have been well summarized by Zhang et al.[11].
    Fig.2 Zigzag structure in compound 1 viewed from b axis
    Fig.3 Ladder structure of 1 along c axis
    Table 3 Intermolecular hydrogen bonds lengths and bond angles for 1
    As shown in Fig.3 and Table 3,there exist two kinds of strong H-bonds (O-H…O)in the crystal structure such as between oxygen atom of carboxylate and hydrogen atoms of water(O(1W)-H(1W)…O(4)#1 0.185 7 nm,O(1W)-H(2W)…O(2)#2 0.192 1 nm).The molecular skeleton is bonded by bridging Na2bqdc ligands to form a one-dimensional linear structure,and then double neighboring linear structures are furthermore linked by hydrogen bonds resulting in the formation of an interesting one-dimensional ladder structure[19].In addition,if we defined the centroid gravity(Cg)of aromatic rings N(1)-C(21)-C(22)-C(23)-C(24)-C(25),N(2)-C(26)-C(27)-C(28)-C(29)-C(30),N(3) -C(1)-C(2)-C(3)-C(4)-C(5),N(4)-C(11)-C(12)-C(13)-C(14)-C(15),C(4)-C(5)-C(6)-C(7)-C(8)-C(9),C(14)-C(15) -C(16)-C(17)-C(18)-C(19)are Cg(3),Cg(4),Cg(5),Cg(6), Cg(7)and Cg(8),the distance between Cg(3)and Cg(4), Cg(5)and Cg(6),Cg(5)and Cg(8),Cg(7)and Cg(8)are 0.399 0,0.358 8,0.363 5 and 0.369 1 nm respectively, alsothe vertical distance between above rings are 0.346 1,0.342 2,0.342 6 and 0.342 5 nm respectively, indicatinganotherform ofstrong supramolecular interactions π-π stacking lie in title structure.They are speculated to hold together the molecules into a three layer structure(Fig.4)[20].
    2.3 Thermogravimetric properties
    To study the thermal stability of compound 1, thermogravimetric analysis(TGA)was performed on its polycrystalline sample.The compound is stable up to 314℃.One strikingly clean weight loss step 220℃occurred at ca.220~230℃(2.98%loss)corresponding to the removal of one coordinated water molecule per subunit(calcd.3.13%).The framework is stable at 332~424℃.Beyond this temperature,decomposition of the network was observed.
    2.4 Ultraviolet spectrometry
    Fig.5 UV-Vis absorption spectrum of complex 1 and Na2bqdc ligand in solid state
    The UV absorption spectrum of Na2bqdc ligand and complex 1 in solid state are shown in Fig.5.As we can see,there are two distinct absorption bands at 248, 346 for Na2bqdc ligand and 242,340 nm for complex 1 respectively,which can be attribute to the π→π*,n→π*transition of the benzene,pyridine and CO2-group.A small blue shifts corresponding to the free ligand probably be due to the formation of coordination polymer and supramoleculer hydrogen-bonding interactions thus increasing the rigidity of 1[21].
    2.5 Powder X-ray diffraction
    As shown in Fig.6,powder X-ray diffraction showed the product to be highly crystalline,and also revealed that the reaction was quantitative,since no starting materials were detected in crystallizing product.Their stimulated PXRD pattern based on the crystal structure analysis allowed unambiguous identification via a comparison of the experimental and computed powder diffraction patterns.
    Fig.6 Powder XRD patterns of(a)the simulation based on the single-crystal analysis of 1,(b)assynthesized sample by grinding
    [1]Chang F,Wang Z M,Sun H L,et al.Dalton Trans.,2005,18: 2976-2978
    [2]Tang Y Z,Tan Y H,Ge Z T,et al.J.Coord.Chem.,2009,62: 2682-2688
    [3]Tang Y Z,Zhou M,Wen H R,et al.CrystEngComm,2011,13: 3040-3045
    [4]Tang Y Z,Yang Y M,Wang X W,et al.Inorg.Chem.Commun., 2011,14:613-617
    [5]Tang Y Z,Wen H R,Cao Z,et al.Inorg.Chem.Commun., 2010,13:924-928
    [6]Tang Y Z,Huang X F,Song Y M,et al.Inorg.Chem.,2006,45: 4868-4870
    [7]Ye Q,Tang Y Z,Wang X S,et al.Dalton Trans.,2005,9:1570-1573
    [8]TANG Yun-Zhi(唐云志),LIAO Shu-Lan(廖蘇蘭),HUANG Shuai(黃帥),et al.Nonferrous Metals Science and Engineering(Youse Jinshu Kexue Gongcheng),2011,2(1):19-22
    [9]Zhou Y F,Jiang F L,Yuan D Q,et al.Angew.Chem.Int.Ed., 2004,43:5665-5668
    [10]Zhang M B,Zhang J,Zheng S T,et al.Angew.Chem.Int.Ed., 2005,117:1409-1411
    [11]Ye J W,Zhang P,Ye K Q,et al.J.Solid State Chem.,2006, 179:438-449
    [12]Xie J L.Z.Anorg.Allg.Chem.,2009,635:384-388
    [13]Hoertz P G,Staniszewski A,Marton A,et al.J.Am.Chem. Soc.,2006,128:8234-8245
    [14]Dai P X,Yang E C,Wang X G,et al.Z.Anorg.Allg.Chem., 2008,634:1581-1586
    [15]LUO Jun-Hua(羅軍華),CHEN Lian(陳 蓮),YUE Cheng-Yang(岳呈陽),et al.Chinese J.Struct.Chem.(Jiegou Huaxue),2007,26(6):654-658
    [16]Sheldrick G M.SADABS,Program for Empirical Absorption Correction of Area Detector Data,University of G?tingen, G?tingen,Germany,1996.
    [17]Sheldrick G M.SHELXS-97,Program for Crystal Structure Solution and Refinement,University of G?ttingen,Germany, 1997.
    [18]Sheals J,Persson P,Hedman B.Inorg.Chem.,2001,40:4302-4309
    [19]TANG Yun-Zhi(唐云志),YANG Shao-Ping(楊韶平),TAN Yu-Hui(譚玉惠),et al.Chinese J.Inorg.Chem.(Wuji Huaxue Xuebao),2007,23(1):70-74
    [20]Clegg W,Cressy J T,Mocamky A.Acta Crystallogr.Sect.C, 1995,51:234-235
    [21]XIAO Fu-Rong(肖芙蓉),CHEN Lu(陳鷺),WANG Ji-De(王吉德),et al.Acta Chimica Sinica,2006,64:1517-1522
    A One Dimensional Co(Ⅱ)Coordination Polymer Constructed from 2,2′-Biquinoline-4,4-dicarboxylic Acid
    TANG Yun-Zhi*YANG Yan-Ming CAO Zan QI Ting-Ting HUANG Guang-Hua WEN He-Rui
    (School of Metallurgy and Chemistry Engineering,Jiangxi University of Science and Technology,Ganzhou,Jiangxi 341000,China)
    Utilizing 2,2′-biquinoline-4,4-dicarboxylate ligand(Na2bqdc)and CoSO4with 2,2′-bipyridine as auxiliary ligand under hydrothermal condition produces a novel coordination polymer[Co(bqdc)(bipy)(H2O)]n(1).The coordination geometry around central metal CoⅡion can be best described as a distorted octahedron which constructed by one bidentate chelating carboxylic group,one monodentate carboxylic group,two nitrogen atoms from the chelating bipyridine ligand and one water molecules.Crystal data for 1,P21/c,a=1.3671(15),b=0.9996(11), c=1.9948(16)nm,β=113.555(6)°,V=2.4989(4)nm3,Z=4,R1=0.0388,wR2=0.0851.The UV absorption spectrum of title compound show a small blue shifts corresponding to the free ligand probably be due to the formation of coordination polymer and supramoleculer hydrogen-bonding interactions thus increasing the rigidity of 1. Thermogravimetric analysis(TGA)of the polycrystalline sample shows that the compound is stable up to 217℃. CCDC:847230.
    2,2′-biquinoline-4,4-dicarboxylate;cobalt(Ⅱ)complex;crystal structure;Ultra-Violet
    O614.81+2
    A
    1001-4861(2012)06-1265-06
    2011-11-27。收修改稿日期:2012-03-16。
    國家自然科學基金(No.21001056),江西省青年科學家(井岡之星)專項(贛科發(fā)[2011]186號)資助項目。
    *通訊聯(lián)系人。E-mail:tangyunzhi75@163.com
    

    
                        
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