Fjare et al., 1981 - Google Patents

Synthesis and reactivity of an anionic tetrairon nitrido cluster. Crystal and molecular structure of bis (triphenylphosphin) iminium [dodecarbonylnitridotetraferrate]

Fjare et al., 1981

Document ID: 3265236657643476566
Author: Fjare D; Gladfelter W
Publication year: 1981
Publication venue: Inorganic Chemistry

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The reaction of PPN [Fe (CO) 3 (NO)](PPN= bis (triphenylphosphin) iminium cation) with Fe3 (CO) 12 produces the nitrido cluster PPN [Fe4N (CO) 12]. The structure was determined by single-crystal X-ray crystallography [Pi space group, Z= 2, a= 10.700 (2) A, b= 14.146 (3) A …

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- C—CHEMISTRY; METALLURGY
- C07—ORGANIC CHEMISTRY
- C07F—ACYCLIC, CARBOCYCLIC OR HETEROCYCLIC COMPOUNDS CONTAINING ELEMENTS OTHER THAN CARBON, HYDROGEN, HALOGEN, OXYGEN, NITROGEN, SULFUR, SELENIUM OR TELLURIUM
- C07F7/00—Compounds containing elements of Groups 4 or 14 of the Periodic System

Publication	Publication Date	Title
Fjare et al.	1981	Synthesis and reactivity of an anionic tetrairon nitrido cluster. Crystal and molecular structure of bis (triphenylphosphin) iminium [dodecarbonylnitridotetraferrate]
Wasserman et al.	1986	Molecular hydrogen complexes of the transition metals. 2. Preparation, structure, and reactivity of W (CO) 3 (PCy3) 2 and W (CO) 3 (P-iso-Pr3) 2,. eta. 2-H2 complex precursors exhibiting metal. cntdot.. cntdot.. cntdot. hydrogen-carbon interaction
Longoni et al.	1972	Chelate organometallic compounds of nickel (II), palladium (II) and platinum (II) derived from N, N-dialkyl-benzylamines
Mayer et al.	1982	Synthesis and reactivity of new polyhydride compounds of tantalum (V)
Manzer	1976	Alkyl complexes of scandium (III), titanium (III) and vanadium (III) derived from phosphorus ylide anions
Rusik et al.	1989	Reactions of. eta. 2-acyl ligands in Tp'(CO) 2Mo [. eta. 2-C (O) R] complexes to form complexed enolates and enones, allyls, and alkyne insertion products
Moers et al.	1972	Osmium (II) and Ruthenium (II) complexes of tricyclohexylphosphine
Ungvary et al.	1983	Kinetics and mechanism of ethyl formate formation from (ethoxycarbonyl) cobalt tetracarbonyl and molecular hydrogen or HCo (CO) 4
Keijsper et al.	1984	Ruthenium carbonyl 1, 4-diaza-1, 3-butadiene (R-DAB) complexes. 5. Syntheses, spectroscopic properties, and reactivity of Ru2 (CO) 5 (alkyl-DAB), a key intermediate in the Ru3 (CO) 12-alkyl-DAB reaction. Crystal and molecular structure of (1, 4-diisopropyl-1, 4-diaza-1, 3-butadiene) pentacarbonyldiruthenium, Ru2 (CO) 5 (isopropyl-DAB)
Chisholm et al.	1979	Reactions of metal-to-metal multiple bonds. 6. Reversible carbonylation of hexakis (tert-butoxy) dimolybdenum (M. tplbond. M). A carbonyl-bridged metal-to-metal double bond, Mo2 (OBu-t) 6 (CO)(M: M)
Kalb et al.	1982	Reactions at the metal vertex of a monometal metallacarborane cluster. Chemistry of [closo-3, 3-(PPh3) 2-3-HSO4-3, 1, 2-RhC2B9H11] and [closo-3-PPh3-3, 3-NO3-3, 1, 2-RhC2B9H11]
Del Ministro et al.	1995	Rhodium (I) complexes of the type [Tp3R, 5RRh (LL)](LL= 2 CO, NBD, COD) with trifluoromethyl substituted tris (pyrazolyl) borate ligands and their dynamic behaviour in solution. The X-ray crystal structure of TpCF3MeRh (CO) 2
Raubenheimer et al.	1976	Sulphur-containing metal complexes: I. Reactions of pentacarbonyl (carbene) complexes with dialkyl sulphides
Orama	1986	Bis (diphenylphosphino) acetylene complexes of Cp (CO) 2Mn and (CO) 5M (M= Cr, W)
Hegedus et al.	1982	Reactions of transition-metal nucleophiles with transition-metal electrophiles. Reactions of acyliron, acylnickel, and cobalt carbonyl anions with (. pi.-allyl) palladium complexes
Brunet et al.	1992	Ligand substitution processes on carbonylmetal derivatives. 1. Reaction of tetracarbonylhydridoferrates with phosphines
Holah et al.	1975	Reactions of Sodium Tetrahydroborate and Cyanotrihydroborate with Rhodium (I),(II), and (III) Systems in the Presence of Tertiary Phosphines
Beshouri et al.	1987	Synthesis and crystal and molecular structures of M (OAr') 2 (CH2-py-6Me) 2 [M= Hf, Th; OAr'= 2, 6-di-tert-butylphenoxide; CH2-py-6Me= 2-(6-methylpyridyl) methyl], complexes containing two carbon-nitrogen chelating pyridylmethyl ligands
Burk et al.	1991	The chemistry of tetrakis (trifluoromethyl) cyclopentadienone
Curtis et al.	1987	Metal-metal multiple bonds. 20. Structural, kinetic, and theoretical studies of the reactivity of dimolybdenum. mu.-alkylidenes toward small molecules. Structures of M2 (. mu.-CAr2), M2 (. mu.-CAr2'), and M2 (. mu.-. eta. 1,. eta. 2-iso-PrNC: CAr2')[M= Cp (or Cp') Mo (CO) 2; Ar= p-tolyl, Ar2'= 2, 2'-biphenylenyl, and Cp'= C5H4Me]
Riley et al.	1983	Formation of diketone ligands by oxidation of macrocyclic iron (II) complexes with molecular oxygen
Feng et al.	1995	Thermal Fragmentation of Acyl Thiolato Complexes to Reactive Metal Sulfido Intermediates. Structure of Ru (. eta. 6-SC3Me3COMe)(PPh3) 2
Dickson et al.	1993	Unusual alkyne-alkylidene coupling reactions at a rhodium-rhodium bond. Crystal and molecular structure of the bridging butadiene complex (. eta.-C5H5) 2Rh2 (. mu.-CO){. mu.-. eta. 2:. eta. 2-C (CF3) H: C (CF3) CMe: CH2}
Lukehart et al.	1979	Reactions of coordinated molecules. 19. Metalla-. beta.-diketonate complexes of copper (II), iron (III), chromium (III), zinc (II), and magnesium (II)
Caffyn et al.	1993	Ring-expansion reactions of ligand-bridged dinuclear cobalt complexes with alkynes and with allene: crystal and molecular structures of [Co2 {. mu.-PPh2CHCHC (O) CHCHPPh2}(CO) 4] and [Co2 {. mu.-PPh2CHCHC (O) C (CH2) 2}(. mu.-PPh2)(CO) 3]

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