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1.
合成了2个新配体4-(4-硫代乙酸)甲苯基-6-苯基-2,2’-联吡啶HC^N^N(PhCH2SCOCH3)(L3)和6-(4-硫代乙酸)甲苯基-2,2’-联吡啶HC^N^N(CH2SCOCH3)(L5)及其发光的铂(Ⅱ)配合物ClPtC^N^N(PhCH2SCOCH3)(C3)和ClPtC^N^N(CH2SCOCH3)(C5).通过1H NMR谱和质谱对它们的结构进行了表征,采用X射线单晶衍射分析确定了C3的晶体结构.利用紫外-可见吸收光谱、发射光谱及激发态寿命测定研究了它们的光物理性质和电化学性质,以及配合物作为光敏剂在光催化制氢中的应用.通过系列配合物产氢效率的比较,揭示了它们的产氢效率和激发态寿命的关系. 相似文献
2.
2,2 -联吡啶钌配合物催化CO2制备环状碳酸酯机理研究 总被引:1,自引:0,他引:1
研究了2,2 -联吡啶钌配合物RuCl3(2,2 -bipy)(CH3OH)与十六烷基三甲基氯化铵(CTAC)组成的催化体系催化二氧化碳与不同的环氧化合物进行环加成反应制备环状碳酸酯. 在此基础上, 利用电喷雾质谱(ESI-MS)对RuCl3(2,2 -bipy)(CH3OH)/CTAC催化CO2与环氧丙烷(PO)反应制备碳酸丙烯酯(PC)进行了研究, 检测到了反应中间态配合物RuCl3(2,2 -bipy)(PO)与RuCl3(2,2 -bipy)(PC), 为该反应机理研究提供了实验证据. 研究结果表明, RuCl3(2,2 -bipy)(CH3OH)/CTAC催化体系催化CO2与环氧化合物的反应首先是通过环氧化合物与RuCl3(2,2 -bipy)(CH3OH)中的甲醇分子发生配体交换引发的, 经CTAC中的氯离子进攻环氧化合物开环、二氧化碳插入Ru—O键、分子内关环及消去生成环状碳酸酯. 相似文献
3.
在溶剂热条件下制备了系列新配合物:[Cr2(tpc)2(HCOO)2(OH)2]·4H2O (1)、[Ba(tpc)2(H2O)2]n (2)、[Zn2(tpc)2(NO3)2]n (3)、[Pb(Htpc)(NO3)2]·2H2O (4)和[Rh(Htpc)Cl3]·CH3OH·H2O (5)(Htpc=2,2′∶6,2″-三联吡啶-4-羧酸)。X射线单晶衍射分析表明,有机配体呈4种不同的配位方式;配合物1~5通过C—H…O/N氢键和π…π相互作用形成了新颖的超分子网络。研究了这些配合物的发光性能。在365 nm紫外辐射下,晶体2~5分别呈现绿色、蓝色... 相似文献
4.
由于极短的激发态寿命, 钌(II)三联吡啶配合物对脱氧核糖核酸(DNA)的光损伤能力低下. 设计合成了三个钌(II)三联吡啶配合物[Ru(ttp)(tpy)]2+ (1), [Ru(ttp-COOH)(tpy)]2+ (2)和[Ru(ttp-COOH)(tpy-pyr)]2+ (3), 其中tpy为2,2':6',2"-三联吡啶, ttp为4′-(4-甲苯基)-2,2':6',2"-三联吡啶, ttp-COOH为4′-(4-羧基苯基)-2,2':6',2"-三联吡啶, tpy-pyr为4'-(1-芘基)-2,2':6',2"-三联吡啶. 比较了TiO2纳米颗粒对它们光损伤小牛胸腺DNA的影响. 发现TiO2纳米颗粒在空气和氩气条件下均可显著提高配合物3光损伤DNA的能力. TiO2纳米颗粒和配合物3间的光诱导电子转移作用及其该作用生成的钌(III)物种可能是促进配合物3对DNA光损伤的主要原因. 相似文献
5.
合成了钌(Ⅱ)配合物cis-[Ru(HL)(Hdcbpy)(NCS)2]-·[N(C4H9)4] (HL=2-(9-乙基-9H-3-咔唑基)-1H-咪唑[4,5-f][1,10]邻菲哕啉,H2dcbpy=4,4'-二羧酸-2,2'-联吡啶).采用元素分析、核磁共振氢谱、红外光谱、紫外-可见吸收光谱、质谱(MS)对配合物进行了表征.通过紫外-可见吸收光谱和稳态荧光光谱,研究了该配合物的基态和激发态酸碱性质.结果表明该配合物在基态时能发生5步质子化/去质子化反应,表现出基于光致发光强度和激发态能量转移途径的质子化/去质子化诱导的分子开关性质. 相似文献
6.
7.
合成和表征了4种新型配合物[Cu2(TPHA)(NO2-Phen)1](ClO1)2·H2O、[Cu2(TPHA)(Me-bpy)1](ClO1)2、[Mn2(TPHA)(NO2-Phen)1](ClO1)2·2H2O和[Mn2(TPHA)(Me-bpy)1](ClO1)2(TPHA:对苯二甲酸根阴离子;NO2-Phen:5-硝基-1,10-菲绕啉;Me-bpy:4,4'-二甲基-2,2'-联吡啶).测定了配合物的变温磁化率,并求出了交换积分J分别为-5.04、-6.52、-0.68及-0.73cm-1. 相似文献
8.
单氢钌配合物与水和2,2,2-三氟乙醇的作用机理 总被引:1,自引:0,他引:1
利用原位1H和31P NMR对单氢钌配合物TpRu(PPh3)(CH3CN)H [Tp=hydrotris(pyrazolyl)borate]与H2O和酸性HOCH2CF3的反应进行了研究, 结果显示相应的反应产物分别是TpRu(PPh3)(CH3CN)(OH) 和TpRu(PPh3)(CH3CN)(OCH2CF3). 观察到反应过程中Ru-H…HOH和Ru-H…HOCH2CF3分子间的氢键作用. 提出了生成TpRu(PPh3)(CH3CN)(OH)和TpRu(PPh3)(CH3CN)(OCH2CF3)的不同作用机理. 在水存在下, TpRu(PPh3)(CH3CN)H 与H2O反应, 经过中间体TpRu(PPh3)(H2O)H和TpRu(PPh3)(OH)(η2-H2)生成产物TpRu(PPh3)(CH3CN)(OH). 而TpRu(PPh3)(CH3CN)H与酸性HOCH2CF3反应时, 单氢配体被质子化形成中间体[TpRu(PPh3)(CH3CN)- (η2-H2)](OCH2CF3), 进而转变成产物TpRu(PPh3)(CH3CN)(OCH2CF3). TpRu(PPh3)(CH3CN)(OCH2CF3)与H2作用, 经中间体TpRu(PPh3)(HOCH2CF3)H生成TpRu(PPh3)(η2-H2)H. 相似文献
9.
以3?乙基?1?(2?噻吩基)咪唑鎓(L)和2,2'?联吡啶(bpy)为配体,合成了一个新的环金属钌配合物[Ru(L)(bpy)2]+(1),并通过NMR和HRMS谱表征了该配合物。用紫外可见吸收光谱实验研究了该配合物对常见金属离子的识别作用,发现在CH3CN/HEPES中,仅Hg2+的加入使配合物溶液的最大吸收峰由546 nm蓝移至448 nm,溶液由紫红色变为黄色。通过吸收光谱及质谱分析,推测Hg2+与配合物1的作用机理可能是Hg2+与硫作用引起Ru—C配位向Ru—S配位模式转化。 相似文献
10.
由于极短的激发态寿命, 钌(II)三联吡啶配合物对脱氧核糖核酸(DNA)的光损伤能力低下. 设计合成了三个钌(II)三联吡啶配合物[Ru(ttp)(tpy)]2+ (1), [Ru(ttp-COOH)(tpy)]2+ (2)和[Ru(ttp-COOH)(tpy-pyr)]2+ (3), 其中tpy为2,2':6',2"-三联吡啶, ttp为4′-(4-甲苯基)-2,2':6',2"-三联吡啶, ttp-COOH为4′-(4-羧基苯基)-2,2':6',2"-三联吡啶, tpy-pyr为4'-(1-芘基)-2,2':6',2"-三联吡啶. 比较了TiO2纳米颗粒对它们光损伤小牛胸腺DNA的影响. 发现TiO2纳米颗粒在空气和氩气条件下均可显著提高配合物3光损伤DNA的能力. TiO2纳米颗粒和配合物3间的光诱导电子转移作用及其该作用生成的钌(III)物种可能是促进配合物3对DNA光损伤的主要原因. 相似文献
11.
使用桥连配体锂盐与MCl4络合, 合成了4个不同结构的双核茂金属化合物[μ,μ-(CH2)3]{[C(H)·(η5-C5H4)(η5-C13H8)](MCl2)}2[M=Zr or Ti](4, 5)和[μ,μ-(CH2)3]{[C(H)(η5-C5H4)(η5-C9H6)]·(MCl2)}2[M=Zr or Ti](6, 7), 配体和化合物都经过核磁氢谱(1H NMR)、 碳谱(13C NMR)、 红外光谱(IR)及元素分析等表征, 确认了化学结构. 以甲基铝氧烷(MAO)为助催化剂, 化合物4~7为催化剂催化丙烯聚合, 考察了聚合温度、 乙烯压力、 铝钛或铝锆比对催化剂活性及聚合物分子量的影响. 结果表明, 多亚甲基桥连双核茂金属是高活性乙烯和丙烯聚合催化剂, 乙烯聚合活性最高达到7.5× 106 g PE/(mol Zr·h)(化合物6), 丙烯聚合活性达 10 × 105 g sPP/(mol Zr·h)(化合物4). 所得间规聚丙烯(sPP)的间规度指数(SI, r) 达到90%. 在同样条件下, 双核化合物的催化活性、 聚合物分子量Mw(> 100000)以及分子量分布(MWD>2.5)均比相应的单核化合物高(Mw<70000, MWD≤2), 表明该体系中存在较强的核效应. 相似文献
12.
Peter K. Byers Allan J. Canty Peter R. Traill Andrew A. Watson 《Journal of organometallic chemistry》1990,390(3):399-407
Oxidative addition of ethyl iodide to PdMe2(2,2′-bipyridyl) in (CD3)2CO gives the unstable “PdIMe2Et(bpy)”, which undergoes reductive elimination to form PdIR(bpy) (R = Me, Et), ethane, and propane. Ethene and palladium metal are also formed, and are attributed to decomposition of PdIEt(bpy) via β-elimination. Similar results are obtained with n-propyl iodide, although a palladium(IV) intermediate was not detected, but CH2=CHCH2X (X = Br, I) and PhCH=CHCH2Br give isolable complexes fac-PdXMe2(CH2CH=CHR)(L2) (R = H, Ph; L2 = bpy, phen). The propenyl complexes decompose at ambient temperature to form ethane, a trace of PdXMe(L2), and mixtures of [Pd(η3-C3H5)(L2)]X and [Pd(η3-C3H5)(L2)]-[Pd(η3-C3H5)X2]; for fac-PdBrMe2(CH2CH=CH2)(bpy) the major palladium(II) product is [Pd(η3-C3H5)(bpy)]Br. 相似文献
13.
The complex [MoW(μ-CC6H4Me-4)(CO)2(η7-C7H7)(η5-C2B9H10Me)] reacts with diazomethane in Et2O containing EtOH to afford the dimetal compound [MoW(OEt)(μ-CH2){μ-C(C6H4Me-4)C(Me)O}(η7-C7H7)(η5-C2B9H10Me)]. The structure of this product was established by X-ray diffraction. The Mo---W bond [2.778(4) Å] is bridged by a CH2 group [μ-C---Mo 2.14(3), μ-C---W 2.02(3) Å] and by a C(C6H4Me-4)C(Me)O fragment [Mo---O 2.11(3), W---O 2.18(2), Mo---C(C6H4Me-4) 2.41(3), W---C(C6H4Me-4) 2.09(3), Mo---C(Me) 2.26(3) Å]. The molybdenum atom is η7-coordinated by the C7H7 ring and the tungsten atom is η5-coordinated by the open pentagonal face of the nido-icosahedral C2B9H10Me cage. The tungsten atom also carries a terminally bound OEt group [W---O 1.88(3) Å]. The 1H and 13C-{1H} NMR data for the dimetal compound are reported and discussed. 相似文献
14.
Fu-Yu Tsai Ray-Hsi Hsu Tsang-Miao Huang Jwu-Ting Chen Gene-Hsiang Lee Yu Wang 《Journal of organometallic chemistry》1996,520(1-2):85-96
Regioselective addition of chalcogenol to an ν3-propargyl complex Pt(PPh3)2(η3-C3H3)](BF4) (2) via the formation of the C---O, C---S, or C---Se bond generates new cationic chalcogenoxyallyl species {Pt(PPh3)2[η3CH2C(ER)CH2]}(BF4) (E = O, R = Me 4(a), Et (4b, iPr (4c), 1Bu (4d), Ph (4e); E=S, E=Et (5b), tBu (5d, Ph (5e); E=Se, R=Ph (6e )) respectively in good yields. Thiol and selenol react with complex 2 much faster than alcohol; and 2 reacts with p-(HO)C6H4(SH) to exclusively yield the thioxyallyl product {Pt(PPh3)2[η3-CH2C(SC6H4OH)CH2]}(BF4) (5f). Among the alcoh and phenol, thereactivity follows the order MeOH > EtOH >, iPrOH >, tBuOH > PhOH. A mechanism comprising a preceding coordination step is postulated. The X-ray structures of 4b, 4e, 5b, 5e and 6e are provided. 相似文献
15.
Hassan Hadadzadeh Ali R. Rezvani Francine Belanger-Gariepy 《Journal of Molecular Structure》2005,740(1-3):165-168
Several new RhIII complexes, [Rh(tpy)(bpy)L](PF6)2 (tpy=2,2′:6′,2″-terpyridine, bpy=2,2′-bipyridine, and L=monoanions of phenylcyanamide(pcyd)), 4-methylphenylcyanamide (4-MePcyd), 2,4-dimethylphenylcyanamide (2,4-Me2pcyd), 4-methoxyphenylcyanamide (4-MeOPcyd), 2-chlorophenylcyanamide (2-Clpcyd) and 2,5-dichlorophenylcyanamide (2,5-Cl2pcyd) have been synthesized and characterized by elemental analysis, IR, 1H NMR and electronic absorption spectroscopies. ORTEP drawing of [Rh(tpy)(bpy)(2,5-Cl2pcyd)](PF6)2·1/2CH3CN shows three pyridyl rings of the tpy ligand that are nearly coplanar, as are the two rings of bpy. The anionic cyanamide group is coordinated end-on by the nitrile nitrogen to the RhIII. The RhIII–NCN bond is bent, having an angle of 125.4°. This bent bond is largely determined by the σ-bonding interaction of a cyanamide non-bonding electron pair in a sp2 hybrid orbital. 相似文献
16.
Reaction of the cationic complex [WI(CO)(NCMe){Ph2P(CH2)PPh2}(η2-MeC2ME)][BF4] with an equimolar amount of MX (MX = NaCl, NaBr, NaI, KNO2, KNO3, NaNCS or KOH) in acetone at room temperature gave the neutral complex [WIX(CO){Ph2P(CH2)PPh2}(η2-MeC2Me)] (1–7) in good yield. Complexes 1–7 have been characterized by elemental analysis (C, H and N), IR and 1H NMR spectroscopy. 相似文献
17.
Reaction of optically active ketone complexes (+)-(R)-[(η5-C5H5)Re(NO)-(PPh3)(η1-O=C(R)(CH3)]+ BF4− (R = CH2CH3, CH(CH3)2m C(CH3)3, C6H5) with K(s-C4H9)3BH gives alkoxide complexes (+)-(RS)-(η5-C5H5)Re(NO)(PPh3)-(OCH(R)CH3) (73–90%) in 80–98% de. The alkoxide ligand is then converted to Mosher esters (93–99%) of 79–98% de. 相似文献
18.
K. Laihia A. Valkonen E. Kolehmainen A. Antonov D. Zhukov I. Fedosov V. Nikiforov 《Journal of Molecular Structure》2006,800(1-3):100-105
Three spiro[pyrrolidine-2,3′-oxindoles], 1,1′,2,2′,5′,6′,7′,7′a-octahydro-2-oxo-1′-phenyl-spiro[3H-indole-3,3′-[3H]-pyrrolizine]-2′-carboxylic acid methyl ester (1), 1,1′,2,2′,5′,6′,7′,7′a-octahydro-2-oxo-1′-nitro-2′-phenyl-spiro[3H-indole-3, 3′-[3H]-pyrrolizine] (2) and 1,1′,2,2′,5′,6′,7′,7′a-octahydro-2-oxo-1′-nitro-2′-(4″-chlorophenyl)-spiro[3H-indole-3,3′-[3H]-pyrrolizine] (3) have been synthesized and their 1H, 13C and 15N spectra assigned. The chemical shift assignments are based on Pulsed Field Gradient (PFG) Double Quantum Filter (DQF) 1H, 1H correlation spectroscopy (COSY), PFG 1H, 13C Heteronuclear Multiple Quantum Coherence (HMQC) and PFG 1H,X (X = 13C and 15N) Heteronuclear Multiple Bond Correlation (HMBC) experiments. The single crystal X-ray structures of 1–3 have been determined. Compounds 1 and 2 crystallized in monoclinic space group C2/c and compound 3 in monoclinic space group P21/c, respectively. Also the ESI-TOF MS data of 1–3 are given. 相似文献
19.
Reaction of Me3SiMe2SiC5H5 (4), prepared from Me3SiMe2SiCl and C5H5Na, with Fe(CO)5 in refluxing xylene afforded the title compound (3). The silicon-silicon bond in 3 is exceptionally stable in refluxing xylene and also in succeeding reactions to prepare a series of its derivatives. Thus, 3 reacted with I2 in either chloroform or benzene, giving [η5-Me3SiMe2SiC5H4Fe(CO)2I] (6). Compound 3 was reduced by sodium amalgam and reacted subsequently with CH3I, PhCH2Cl, CH3COCl, PhCOCl, Cy3SnCl (Cy = cyclohexyl) and Ph3SnCl, producing [η5-Me3SiMe2SiC5H4Fe(CO)2R][7 : R = CH3 (a), PhCH2 (b), CH3CO (c), PhCO (d), Cy3Sn (e) and Ph3Sn (f), respectively]. The molecular structure of 3 has been determined by X-ray diffraction crystallography. It was found that 3 has a trans-configuration with a symmetrical centre located at the middle of the Fe---Fe bond. It is abnormal that the conformation of the disilane part around the Si---Si bond is almost eclipsed rather than staggered. 相似文献
20.
Victorio Cadierno Marí a Pilar Gamasa Jos Gimeno Elena Lastra 《Journal of organometallic chemistry》1996,510(1-2):207-211
The novel alkynyldithiocarboxylate complexes [Fe(η5-C5H5)(S2CCCR) (dppm-P)] (3a,b) and [Fe(η5-C5H5)(S2CCCR)(PPh3)] (4a,b) were obtained through the insertion of CS2 into the iron-akynyl bond in the complexes [Fe(η5-C5H5)(CCR)(L)(L′] L, L′ = dppm R = Ph (1a), tBu(1b); L = (CO), L′ = (PPh3) R = Ph (2a), tBu (2b). Variable-temperature 31P{1H} NMR studies indicate the presence of two different isomers, [Fe(η5-C5H5)(η3-S,C,S′---S2CCCR)(L)(L′)] and [Fe(η5-C5H5(η2-S,S′-S2CCCR)(L)(L′)], which rapidly interconvert at room temperature. The synthesis of the precursor complex [Fe(η5-C5H5)(CCtBu)(CO)(PPh3)] is also described. 相似文献