Ir4(CO)11Ph2H | 140671-94-9
中文名称
——
中文别名
——
英文名称
Ir4(CO)11Ph2H
英文别名
Ir4(CO)11PPh2H
CAS
140671-94-9
化学式
C23H11Ir4O11P
mdl
——
分子量
1263.19
InChiKey
RTFRITCKFNGQQK-UHFFFAOYSA-N
BEILSTEIN
——
EINECS
——
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物化性质
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计算性质
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ADMET
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安全信息
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SDS
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制备方法与用途
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上下游信息
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文献信息
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表征谱图
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同类化合物
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相关功能分类
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相关结构分类
计算性质
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辛醇/水分配系数(LogP):None
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重原子数:None
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可旋转键数:None
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环数:None
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sp3杂化的碳原子比例:None
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拓扑面积:None
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氢给体数:None
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氢受体数:None
反应信息
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作为反应物:描述:Ir4(CO)11Ph2H 在 1,8-diazabicyclo{5.4.0}undec-7-ene 、 HBF4 作用下, 以 二氯甲烷 为溶剂, 以98%的产率得到(carbonyl)10-hydrido(μ-PPh2)tetrairidium参考文献:名称:磷簇[Ir 4 H(CO)10(µ-PPh 2)]的合成,结构表征及其与一系列膦和亚磷酸酯的羰基取代反应摘要:通过去质子化由[Ir 4(CO)11(PPh 2)] 2形成四核簇[Ir 4 H(CO)10(µ-PPh 2)] 1,得到[Ir 4(CO)10(µ- PPh 2)] – 3,然后使阴离子质子化。它已经通过X射线分析得到了充分的表征,并且表现出金属原子的四面体排列,其中三个基边由一个磷基,一个氢基和一个羰基配体桥接。1和3均与亚磷酸酯和膦L [PPh]进行容易的羰基取代反应3,PPhMe 2,P(OPh) 3或P(C 6 H 4 X-4) 3(X = F,Cl,Me,4-Ome或2-OMe)]得到[Ir 4 H(CO) 9 L(µ-PPh 2)] 4a–4h和[Ir 4(CO) 9 L(µ-PPh 2)] – 5a–5h,后者通过质子化转化为相应的氢化物衍生物。在4a–4h中进一步取代一氧化碳,可得到[Ir 4 H(CO) 8 L 2(µ-PPh 2)] 6a–6h。的物[Ir的X射线分析4DOI:10.1039/dt9930001797
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作为产物:参考文献:名称:团簇[Ir 4(CO)11(PH 3- n Ph n)](n = 1或2)的合成及其机理摘要:通过取代[Ir 4(CO)11 Br]中的溴化物,合成了羰基簇[Ir 4(CO)11(PH 2 Ph)]和[Ir 4(CO)11(PHPh 2)] –由适当的磷配体组成。结果表明,[Ir 4(CO)11(PH 2 Ph)]和[Ir 4(CO)11(PHPh 2)]主要以全端异构体的形式存在于溶液中,但两种羰基的浓度较低桥联异构体,[Ir 4(CO)8(µ-CO)3(PH 2 Ph)]和[Ir 4(CO)8(µ-CO)3(PHPh 2)],且磷配体在桥连面上轴向和赤道。碳13磁化转移测量用于证明在[Ir 4(CO)11(PH 2 Ph)]中铱四面体的三个不等价面周围的羰基加扰,并确定了速率。通过[Ir 4(CO)11(PHPh 2)]的三个异构体的互变通过31 P磁化转移测量证明。明确表明,羰基桥联异构体的相互转化是通过 全末端异构体。DOI:10.1039/dt9920001725
文献信息
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Synthesis and X-ray crystallographic characterisation of the diphosphane bridged cluster [Ir4(CO)11PhPPPhlr4(CO)9(AuPEt3)2]作者:J. Nicola Nicholls、Paul R. Raithby、Maria D. VargasDOI:10.1039/c39860001617日期:——Deprotonation of [Ir4(CO)11PPhH2] followed by oxidation with Ag[ClO4] in the presence of [AuPEt3]+ affords the cluster [Ir4(CO)11PhPPPhIr4(CO)9(AuPEt3)2], which has been shown by an X-ray analysis to contain an Ir4 and an Ir4Au2 unit linked by adiphosphane (PhPPPh) ligand.
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Synthesis and structural characterization of the first transition metal cluster containing a PPh2AuPPh3 ligand, Ir4(CO)8(μ-CO)3(PPh2AuPPh3), and its conversion into Ir4(CO)9(μ-CO)(μ-PPh2)(μ-AuPPh3)作者:Dario Braga、Fabrizia Grepioni、Fatima S. Livotto、Maria D. VargasDOI:10.1016/0022-328x(90)80184-2日期:1990.7Deprotonation of Ir4(CO)11PPh2H (1) in the presence of [AuPPh3][PF6] yields the novel species Ir4(CO)11(PPh2AuPPh3) (2), which possesses a tetrahedral framework bearing a terminally bound PPh2AuPPh3 ligand. When heated in toluene, 2 is converted into the phosphido species Ir4(CO)10(μ-PPh2)(μ-AuPPh3).
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Kinetics of conversion of [Ir<sub>4</sub>(CO)<sub>11</sub>(PPh<sub>2</sub>AuPPh<sub>3</sub>)] into [Ir<sub>4</sub>(CO)<sub>10</sub>(µ-PPh<sub>2</sub>)(µ-AuPPh<sub>3</sub>)] and their structural characterization作者:Fatima S. Livotto、Maria D. Vargas、Dario Braga、Fabrizia GrepioniDOI:10.1039/dt9920000577日期:——Deprotonation of [Ir4(CO)11(PPh2H)] 1 in the presence of [Au(PPh3)]PF6 yields the novel species [Ir4(CO)11(PPh2AuPPh3)] 2 which possesses a tetrahedral framework bearing a terminally bonded PPh2AuPPh3 ligand. Changing the order of addition of the reagents results in the formation of [Ir4(CO)10(mu-PPh2)(mu-AuPPh3)] 4 with bridging phosphido and Au(PPh3)+ units. Reaction of 4 with PPh3 yields [Ir4(CO)9(PPh3)(mu-PPh2)(mu-AuPPh3)] 6, while with the more basic phosphine P(C6H4OMe-4)3 substitution of the PPh3 at the Au(PPh3)+ unit occurs producing [Ir4(CO)10(mu-PPh2)mu-AuP(C6H4OMe-4)3}]. Deprotonation of [Ir4(CO)10(PPh3)(PPh2H)] in the presence of [Au(PPh3)]PF6 yields [Ir4(CO)10(PPh3)(PPh2AuPPh3)], which undergoes rearrangement to 6. The kinetics of decarbonylation of compound 2 to give 4 has been investigated and a dissociative mechanism is suggested, confirmed by the activation parameters DELTA-H(double dagger) = 1 35.6 +/- 3.8 kJ mol-1 and DELTA-S(double dagger) = 81.2 +/- 10.9 J K-1 mol-1.
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