Thermodynamics of Ligand Binding and Exchange in Organometallic Reactions
暂无分享,去创建一个
[1] S. Fortier,et al. An investigation of the homolytic dissociation of [.eta.5-C5Me5Cr(CO)3]2 and related complexes. The role of ligand substitution on the solution thermochemistry of metal-metal bond cleavage , 1992 .
[2] G. Kubas,et al. Solution calorimetric and stopped-flow kinetic study of ligand substitution for the complexes M(CO)3(PCy3)2(L) (M = Cr, Mo, W). Comparison of first-, second-, and third-row transition-metal-ligand bonds at a sterically crowded metal center , 1991 .
[3] G. Kubas,et al. Solution calorimetric, equilibrium, and synthetic studies of oxidative addition/reductive elimination of C5R5H (R = H, Me, indenyl) to/from the complexes M(CO)3(RCN)3/(η5-C5R5)M(CO)3H (M = Cr, Mo, W) , 1991 .
[4] W. Jones,et al. Ring migration reactions of (C5Me5)Rh(PMe3)H2. Evidence for .eta.3 slippage and metal-to-ring hydride migration , 1991 .
[5] J. Morais,et al. Solvent dependence of the twisted excited state energy of tetraphenylethylene: evidence for a zwitterionic state from picosecond optical calorimetry , 1991 .
[6] R. Colton,et al. ORDERING OF LIGAND STRENGTHS FOR A SERIES OF DITHIOLATE LIGANDS ATTACHED TO PLATINUM(II) , 1991 .
[7] R. Eldik,et al. Pressure dependence of associative substitution reactions of (dicarbonyl)(cyclopentadienyl)rhodium , 1991 .
[8] M. Garland,et al. Thermodynamic Parameters for the Formation of Cobalt-Rhodium Heptacarbonyl and Cobalt-Rhodium Octacarbonyl , 1991 .
[9] J. Sowa,et al. Calorimetric determination of the heats of protonation of the metal in (methyl-substituted cyclopentadienyl)iridium complexes, Cp'Ir(1,5-COD) , 1991 .
[10] R. Drago,et al. The E, C, T interpretation of bond dissociation energies and anion-neutral molecule interactions , 1991 .
[11] E. Weitz,et al. Bond dissociation energies and kinetics for the reaction of W(CO)5 with the unlikely ligands N2O and CF2Cl2 , 1991 .
[12] C. Hop,et al. OBSERVATION OF A WEAKLY BOUND MN(CO)5+/CH4 COMPLEX , 1991 .
[13] D. Gutman. The controversial heat of formation of the tert-C4H9 radical and the tertiary carbon-hydrogen bond energy , 1990 .
[14] Russell S. Drago,et al. A method for the analysis and prediction of gas-phase ion-molecule enthalpies , 1990 .
[15] T. Burkey. Thermochemistry of silane substitution of CO in metal carbonyl complexes. Interaction of silanes with metal centers , 1990 .
[16] A. Auroux,et al. Microcalorimetric study of the acidity and basicity of metal oxide surfaces , 1990 .
[17] Robert D. Hancock,et al. Molecular mechanics calculations and metal ion recognition , 1990 .
[18] Peter A. Kollman,et al. Computer modeling of the interactions of complex molecules , 1990 .
[19] W. C. Lineberger,et al. Bond Strengths of Ethylene and Acetylene , 1990 .
[20] R. Drago. Novel Extensions of the Electrostatic Covalent Approach and Calorimetric Measurements to Organometallic Systems , 1990 .
[21] G. K. Khalsa,et al. Thermodynamic and Kinetic Studies of Binding Nitrogen and Hydrogen to Complexes of Chromium, Molybdenum, and Tungsten , 1990 .
[22] M. Selke,et al. Metal—Ligand Bond Dissociation Energies in CpMn(CO)2L and Cr(CO)5(olefin) Complexes , 1990 .
[23] J. M. Simoes,et al. Transition metal-hydrogen and metal-carbon bond strengths: the keys to catalysis , 1990 .
[24] D. Golden,et al. Comments on cyclopentadienyl compound thermochemistry , 1990 .
[25] R. Crabtree. Dihydrogen complexes: some structural and chemical studies , 1990 .
[26] Y. Aoyama,et al. Simultaneous hydrogen bonding and metal coordination interactions in the two-point fixation of amino acids with a bifunctional metalloporphyrin receptor , 1990 .
[27] J. Klassen,et al. Contribution of olefinic ring strain to pentacarbonylchromium-cyclooctene bond strengths , 1990 .
[28] D. Rayner,et al. Interaction of alkanes with unsaturated metal centers. 2. Complexes of alkanes and fluoroalkanes with tungsten pentacarbonyl in the gas phase , 1990 .
[29] R. L. D. L. Vega,et al. Enthalpies of ligand exchange for the complexes [(NH3)5Co-L]3+ (L = water, dimethyl sulfoxide, N,N-dimethylformamide, and pyridine) , 1990 .
[30] J. Simon,et al. Picosecond time-resolved absorption studies of the solvation of Cr(CO)5 in alcohols : a unimolecular kinetic model for the formation of Cr(CO)5(OHR) from photogenerated Cr(CO)5(ROH) , 1990 .
[31] M. Selke,et al. Metal-ligand bond dissociation energies in CpMn(CO)2L complexes , 1990 .
[32] T. Marks,et al. Organo-f-element thermochemistry. Absolute metal-ligand bond disruption enthalpies in bis(pentamethylcyclopentadienyl)samarium hydrocarbyl, hydride, dialkylamide, alkoxide, halide, thiolate, and phosphide complexes. Implications for organolanthanide bonding and reactivity , 1989 .
[33] C. Hoff,et al. Entropy of binding molecular hydrogen and nitrogen in the complexes (P(C6H11)3)2M(CO)3 (M=Cr, Mo, W) , 1989 .
[34] C. Hoff,et al. Rate of reaction of (P(C6H11)3)2W(CO)3 with py, P(OMe)3, PPh2Me, and 2,6-Me2py. Stopped-flow kinetic study of concerted reactions at a sterically crowded metal center , 1989 .
[35] G. Parker,et al. Enthalpy of carbonyl dissociation from metal hexacarbonyls M(CO)6 (M = chromium, molybdenum, tungsten) in alkane solvent: determination of intermolecular agostic bond strengths , 1989 .
[36] B. H. Weiller,et al. Time-resolved IR spectroscopy in liquid rare gases: direct rate measurement of an intermolecular alkane carbon-hydrogen oxidative addition reaction , 1989 .
[37] A. Castleman,et al. Thermodynamics for the clustering of ammonia onto lead(1+) in the gas-phase , 1989 .
[38] M. Blomberg,et al. Ligand effects on metal-R bonding, where R is hydrogen or alkyl. A quantum chemical study , 1989 .
[39] R. Squires,et al. Sequential solvation of atomic transition-metal ions. The second solvent molecule can bind more strongly than the first , 1989 .
[40] Josef Michl,et al. Gas-phase water and hydroxyl binding energies for monopositive first-row transition metal ions , 1989 .
[41] C. Hoff,et al. Stopped-flow kinetic study of the reaction of (P(C6H11)3)2W(CO)3(L) (L = H2, D2, and N2) with pyridine. Kinetic resolution of reaction of dihydride versus molecular hydrogen complexes , 1989 .
[42] B. C. Gilbert,et al. Solvent effects on the thermochemistry of free-radical reactions , 1989 .
[43] K. Nelson,et al. Femtosecond transient absorption spectroscopy of chromium hexacarbonyl in methanol: observation of initial excited states and carbon monoxide dissociation , 1989 .
[44] P. Ford,et al. Flash photolysis studies of RhCl(CO)L2 (L = trimethyl- or tritolylphosphine). Evidence for intermediates in the photocatalytic carbonylation of hydrocarbons , 1989 .
[45] P. Domaille,et al. Kinetics and mechanism of phosphine exchange for ruthenium(II) complexes in the series (.eta.5-C5Me5)(PMe3)2RuX. Ancillary ligand effects on dative ligand dissociation , 1989 .
[46] K. Spears,et al. Reactions of naked chromium pentacarbonyl in tetrahydrofuran solution observed by picosecond infrared transient absorption , 1989 .
[47] T. Burkey. Photoacoustic calorimetry studies of ligand-exchange of aliphatic amines with Cr(CO)6: Steric effects and hydrogen bonding , 1989 .
[48] D. Rayner,et al. Coordination of molecular hydrogen and nitrogen to coordinatively unsaturated tungsten carbonyls in the gas phase , 1989 .
[49] G. Smith. Gas-phase first bond dissociation energies in transition-metal carbonyls , 1989 .
[50] R. Crabtree,et al. H-H, C-H, and Related Sigma-Bonded Groups as Ligands , 1988 .
[51] K. Spears,et al. Unsaturated transition-metal complexes in solution: naked Cr(CO)5 in cyclohexane solution observed by picosecond IR transient absorption , 1988 .
[52] S. Nolan,et al. Thermodynamic and kinetic studies of the complexes W(CO)3(PCy3)2(L) (L=H2, N2, NCCH3, pyridine, P(OMe)3, CO) , 1988 .
[53] W. Tam,et al. Monomeric metal hydroxides, alkoxides, and amides of the late transition metals: synthesis, reactions, and thermochemistry , 1988 .
[54] T. Pourmotabbed,et al. Optimization of efficiency in the glyoxalase pathway. , 1988, Biochemistry.
[55] M. Poss,et al. Regioselective chelate assisted carbon-halogen oxidative addition at tungsten(0) , 1988 .
[56] T. Tsotsis,et al. Some relations between the heats of formation of metal alkyls and metal hydrides, and the electronegativities of the metals , 1988 .
[57] C. Hoff,et al. Synthesis of (PCy3)2Cr(CO)3 and its reactions with hydrogen, nitrogen, and other ligands , 1988 .
[58] J. Bercaw,et al. Metal-hydride and metal-alkyl bond strengths: the influence of electronegativity differences , 1988 .
[59] G. Kubas. Molecular hydrogen complexes: coordination of a .sigma. bond to transition metals , 1988 .
[60] Jin‐Pei Cheng,et al. Homolytic bond dissociation energies in solution from equilibrium acidity and electrochemical data , 1988 .
[61] D. Marynick,et al. Ligand exchange in (.eta.5-cyclopentadienyl)nickel ligand systems: a theoretical study , 1988 .
[62] P. Domaille,et al. Comparison of metal-hydrogen, -oxygen, -nitrogen and -carbon bond strengths and evaluation of functional group additivity principles for organoruthenium and organoplatinum compounds , 1988 .
[63] V. Vaida,et al. Application of time-resolved photoacoustic calorimetry to CrL bond enthalpies in Cr(CO)5L , 1988 .
[64] S. Nolan,et al. The heat of reaction of EtMo(CO)3C5H5 and HMo(CO)3C5H5 and related reactions. Thermochemical study of reductive elimination in alkyl molybdenum complexes , 1988 .
[65] B. Freiser,et al. Reactivity, photochemistry and thermochemistry of simple metal—ligand ions in the gas phase , 1988 .
[66] M. Thompson,et al. Relative bond dissociation energies for early transition metal alkyl, aryl, alkynyl and hydride compounds. Equilibration of metallated cyclopentadienyl derivatives of peralkylated hafnocene and scandocene with hydrocarbons and dihydrogen , 1988 .
[67] R. Squires,et al. Hydride transfer to transition-metal carbonyls in the gas phase. Formation and relative stabilities of anionic formyl complexes , 1988 .
[68] T. Marks,et al. A new approach to measuring absolute metal-ligand bond disruption enthalpies in organometallic compounds. The [(CH3)3SiC5H4]3 U-system , 1988 .
[69] S. Nolan,et al. The thermodynamic driving force for CH activation at iridium , 1988 .
[70] P. Armentrout,et al. Periodic trends in gas phase MH and MC bond energies , 1988 .
[71] J. Allison,et al. The gas phase chemistry of bare and ligated transition metal ions: Correlations of reactivity with electronic structure—I. M+ and MCO+ , 1988 .
[72] R. Drago,et al. Inductive transfer and coordination of ligands in metal—metal bonded systems , 1988 .
[73] J. Halpern. Determination of transition metal-alkyl bond dissociation energies from kinetic measurements , 1988 .
[74] D. Magde,et al. Picosecond and nanosecond geminate recombination of myoglobin with carbon monoxide, oxygen, nitric oxide and isocyanides , 1988 .
[75] T. Marks,et al. Organometallic thermochemistry. Metal hydrocarbyl, hydride, halide, carbonyl, amide, and alkoxide bond enthalpy relationships and their implications in pentamethylcyclopentadienyl and cyclopentadienyl complexes of zirconium and hafnium , 1988 .
[76] B. Wayland. RhRh, RhH, RhC and RhO bond energies in (OEP)Rh complexes: Thermodynamic criteria for addition of MH and MM bonds to CO and CC multiple bonds , 1988 .
[77] S. Nolan,et al. Heat of reaction of (norbornadiene)molybdenum tetracarbonyl with monodentate and bidentate ligands : solution thermochemical study of ligand substitution in the complexes cis-L2Mo(CO)4 , 1988 .
[78] J. M. Simoes,et al. Thermochemistry of M(η5-C5H5)2Ln complexes (M = Ti, Mo, W) , 1988 .
[79] W. Goddard,et al. Relationships between bond energies in coordinatively unsaturated and coordinatively saturated transition-metal complexes: a quantitative guide for single, double, and triple bonds , 1988 .
[80] T. G. Richmond,et al. Activation of carbon−fluorine bonds by oxidative addition , 1987 .
[81] C. Unkefer,et al. Molecular hydrogen complexes. 5. Electronic control of .eta.2-H2 vs. dihydride coordination. Dihydride structure of MoH2(CO)(R2PC2H4PR2)2 for R = Et, iso-Bu versus .eta.2-H2 for R = Ph , 1987 .
[82] M. S. Chinn,et al. Synthesis and properties of a series of ruthenium dihydrogen complexes , 1987 .
[83] M. W. Babich,et al. Thermodynamic studies of donor binding to heterogeneous catalysts , 1987 .
[84] S. Nolan,et al. Heats of reaction of Cp*(PMe3)Ir(R)(H) (R = C6H5, C6H11, and H) with HCl, CCl4, CBr4, and CH3I : a solution thermochemical study of the C-H insertion reaction , 1987 .
[85] K. Morokuma,et al. Potential energy profile of a full catalytic cycle of olefin hydrogenation by the Wilkinson catalyst , 1987 .
[86] A. Prock,et al. Quantitative analysis of ligand effects. 2. Steric and electronic factors influencing transition-metal-phosphorus(III) bonding , 1987 .
[87] J. Bercaw,et al. Relative metal-hydrogen, -oxygen, -nitrogen, and -carbon bond strengths for organoruthenium and organoplatinum compounds; equilibrium studies of Cp*(PMe3)2RuX and (DPPE)MePtX systems , 1987 .
[88] D. Wink,et al. Reaction dynamics of the tricoordinate intermediates MCl(PPh3)2 (M=Rh or Ir) as probed by the flash photolysis of the carbonyls MCl(CO)(PPh3)2 , 1987 .
[89] E. Weitz. Studies of coordinatively unsaturated metal carbonyls in the gas phase by transient infrared spectroscopy , 1987 .
[90] S. Nolan,et al. Heats of reaction of (toluene)Mo(CO)3 with substituted arenes, sodium cyclopentadiene, nitriles, isocyanides, and other ligands : solution thermodynamic study of ligand exchange in the complexes fac-L3Mo(CO)3 , 1986 .
[91] C. A. Granatir,et al. Nineteen-electron adducts: measurement of .DELTA.G.degree. for the reactions of tricarbonyl(methylcyclopentadienyl)molybdenum with halide ligands , 1986 .
[92] S. Nolan,et al. Thermochemical study of the Lewis acid promoted carbonyl insertion reaction. , 1986, Journal of the American Chemical Society.
[93] C. Unkefer,et al. Molecular hydrogen complexes of the transition metals. 4. Preparation and characterization of M(CO)3(PR3)2(.eta.2-H2) (M = molybdenum, tungsten) and evidence for equilibrium dissociation of the H-H bond to give MH2(CO)3(PR3)2 , 1986 .
[94] D. Roe,et al. The mechanism of nickel-catalyzed ethylene hydrocyanation. Reductive elimination by an associative process , 1986 .
[95] V. Vaida,et al. Strength of the metal-ligand bond in LCr(CO)5 measured by photoacoustic calorimetry , 1986 .
[96] M. Poliakoff,et al. Detection of Transient Organometallic Species by Fast Time-Resolved IR Spectroscopy , 1986 .
[97] S. Nolan,et al. Heats of reaction of RMo(CO)3C5H5 (R = H, Me, Et) with phosphines and phosphites : thermodynamic study of the carbonyl-insertion reaction , 1986 .
[98] J. Goodman,et al. Simultaneous determination of photoreaction dynamics and energetics using pulsed, time-resolved photoacoustic calorimetry , 1985 .
[99] M. N. Golovin,et al. Quantitative separation of .sigma.- and .pi.-components of transition metal-phosphorus bonding and the application of ligand effects in organometallic chemistry , 1985 .
[100] S. Nolan,et al. The heats of reaction of phosphines and phosphites with toluene-molybdenum tricarbonyl. Importance of both steric and electronic factors in determining the MoPR3 bond strength , 1985 .
[101] K. Schaffner,et al. Structures and kinetics of Cr(CO)5 and Cr(CO)5.H2O in cyclohexane solution. Flash photolysis study of Cr(CO)6 with infrared and visible detection , 1985 .
[102] C. A. Tolman,et al. Cocondensation of chromium, molybdenum, and tungsten vapors with arenes and phosphorus ligands , 1985 .
[103] J. Halpern. Activation of carbonhydrogen bonds by metal complexes: Mechanistic, kinetic and thermodynamic considerations , 1985 .
[104] F. Basolo. Associative substitution reactions of metal carbonyls , 1985 .
[105] Reuel Shinnar,et al. Structure of complex catalytic reactions: thermodynamic constraints in kinetic modeling and catalyst evaluation , 1985 .
[106] J. Landrum,et al. Synthesis and thermochemistry of HMo(CO)3C5Me5; Comparison of cyclopentadienyl and pentamethylcyclopentadienyl ligands , 1985 .
[107] C. Hoff. Thermochemistry of molybdenum tricarbonyl complexes of arenes and cyclic polyolefins , 1985 .
[108] R. Pearson. The transition-metal-hydrogen bond , 1985 .
[109] S. S. Isied,et al. Enthalpies of reaction of pentaammineruthenium(II) complexes , 1984 .
[110] D. Golden,et al. Organometallic bond dissociation energies: laser pyrolysis of iron pentacarbonyl, chromium hexacarbonyl, molybdenum hexacarbonyl, and tungsten hexacarbonyl , 1984 .
[111] A. Martell,et al. Thermodynamics of oxygen binding in natural and synthetic dioxygen complexes , 1984 .
[112] Jim D. Atwood,et al. Ligand effects on organometallic substitution reactions , 1983 .
[113] J. Kelly,et al. Laser flash photolysis of M(CO)6 (M = Cr, Mo, or W) in perfluoromethylcyclohexane. The generation of highly reactive coordinatively unsaturated species , 1983 .
[114] C. Hoff. The heats of iodination of chromium tricarbonyl complexes of arenes and cycloheptatriene , 1983 .
[115] F. Basolo,et al. Kinetics and mechanism of the substitution reactions of (.eta.5-pentamethylcyclopentadienyl)dicarbonylrhodium(I) and (.eta.5-pentamethylcyclopentadienyl)dicarbonylcobalt(I) , 1983 .
[116] M. Desmond,et al. An NMR and thermodynamic investigation of the reaction of square-planar rhodium(I) compounds with hydrogen , 1983 .
[117] T. Marks,et al. Organo-f-element thermochemistry. Metal-ligand bond disruption enthalpies in (pentamethylcyclopentadienyl)thorium hydrocarbyls, metallacycles, hydrides, and dialkylamides , 1983 .
[118] J. Halpern. Determination and significance of transition metal-alkyl bond dissociation energies , 1982 .
[119] W. Graham,et al. Oxidative addition of the carbon-hydrogen bonds of neopentane and cyclohexane to a photochemically generated iridium(I) complex , 1982 .
[120] D. Darensbourg. Mechanistic Pathways for Ligand Substitution Processes in Metal Carbonyls , 1982 .
[121] A. Janowicz,et al. Carbon-hydrogen activation in completely saturated hydrocarbons: direct observation of M + R-H .fwdarw. M(R)(H) , 1982 .
[122] D. Blake,et al. Calorimetric study of the oxidative addition of acyl chlorides to iridium(I) complexes in solution, the standard state and the gas phase , 1981 .
[123] D. Blake,et al. Enthalpy changes in oxidative addition reactions of organic iodides with trans-chlorocarbonylbis(trimethylphosphine)iridium(I) , 1981 .
[124] W. Hehre,et al. Heats of formation of gaseous free radicals via ion cyclotron double resonance spectroscopy , 1980 .
[125] A. Veillard,et al. The metal—rare-gas interaction. The dispersion energy of Mo(CO)5Kr , 1979 .
[126] M. Wrighton,et al. Photoreaction of hexacarbonylmolybdenum(0) and tricarbonyl(.eta.5-cyclopentadienyl)hydridomolybdenum(II) in the presence of cyclopentadiene. Substitution, oxidative addition, and hydrometalation , 1979 .
[127] D. Blake,et al. ENTHALPY CHANGES IN OXIDATIVE ADDITION REACTIONS OF RHODIUM(I) AND IRIDIUM(I) COMPLEXES , 1979 .
[128] C. T. Mortimer,et al. The platinumcarbon bond strength in Pt(PPh3)2(CH3)I , 1979 .
[129] L. T. Chan,et al. Calorimetric study of the Lewis acid properties of coordinatively unsaturated organoiridium(III) species , 1977 .
[130] I. B. Rabinovich,et al. Thermochemistry of Organic Compounds of Transition Metals , 1977 .
[131] C. A. Tolman,et al. Steric effects of phosphorus ligands in organometallic chemistry and homogeneous catalysis , 1977 .
[132] J. Connor. Thermochemical studies of organo-transition metal carbonyls and related compounds , 1977 .
[133] C. A. Tolman,et al. A Calometric study of steric effects in the reactions of phosphorus ligands with Ni(COD)2 , 1976 .
[134] Ma Li,et al. An acid-base model for mixed metal dimer formation: enthalpies of dimer cleavage and adduct formation of 1,5-cyclooctadiene-rhodium(I) chloride dimer , 1976 .
[135] J. Beauchamp,et al. Quantitative metal-ligand bond dissociation energies in the gas phase by ion cyclotron resonance spectroscopy , 1976 .
[136] J. F. Liebman,et al. A survey of strained organic molecules , 1976 .
[137] K. Zamaraev,et al. METAL CLUSTERS IN CATALYSIS PART 2, AN ELECTRON SPIN RESONANCE STUDY OF DINUCLEAR METAL COMPLEX FRAGMENTS AND THEIR INTERACTION WITH ORGANIC SUBSTRATES , 1975 .
[138] L. Manzer,et al. Steric and electronic effects in enthalpies of platinum-ligand bond formation in trans-(CH3Pt[P(CH3)2C6H5]2L)+(PF6)-complexes , 1975 .
[139] C. T. Mortimer,et al. The platinium—carbon bond strength in Pt(PPh3)2(CPhCPh) , 1975 .
[140] M. W. Lister,et al. Relative olefin—metal bond strengths in some platinum (O) compounds , 1975 .
[141] C. T. Mortimer,et al. Platinumolefin bond strength in Pt(PPh3)2(CH2CH2) and Pt(PPh3)2 {C(CN)2C(CN)2} , 1974 .
[142] B. Durham,et al. Calorimetric investigation of the reaction of pyridine with compounds of the type di-.mu.-chloro-dichlorobis(olefin)dipalladium(II) , 1974 .
[143] B. James,et al. Kinetics and equilibria for carbon monoxide binding to ferrous phthalocyanine complexes. , 1974, Journal of the American Chemical Society.
[144] R. Drago,et al. Solvation contributions to enthalpies measured in methylene chloride , 1974 .
[145] W. Partenheimer,et al. Heats of reaction of pyridine, triphenylphosphine, and triphenyl phosphite with the chloro-, bromo-, and iodo-1,5-cyclooctadienerhodium(I) dimers and dichlorobis(benzonitrile)palladium(II) , 1973 .
[146] R. Drago,et al. ELIMINATING SOLVATION CONTRIBUTIONS OF THE ENTHALPY OF ADDUCT FORMATION IN WEAKLY POLAR ACIDIC SOLVENTS , 1973 .
[147] W. Partenheimer,et al. Heats of reaction of triphenylphosphine with compounds of the type hexafluoroacetylacetonato(olefin)silver(I) , 1973 .
[148] W. Partenheimer,et al. Heats of reaction of triphenyl phosphite with some rhodium-olefin compounds , 1973 .
[149] W. Partenheimer. Heats of reaction of chelated olefin and other ligands with dichlorobis(benzonitrile)palladium(II) , 1972 .
[150] C. T. Mortimer,et al. The thermochemistry of adducts of oxygen and sulphur dioxide with chlorocarbonylbis(triphenylphosphine)iridium(I) , 1970 .
[151] F. Hartley. Olefin and acetylene complexes of platinum and palladium , 1969 .
[152] H. C. Volger,et al. NMR investigation into the relative stabilities and rates of exchange of chelating dienes coordinated towards monovalent rhodium , 1969 .
[153] L. Vaska. Reversible activation of covalent molecules by transition-metal complexes. The role of the covalent molecule , 1968 .
[154] R. J. Angelici,et al. Kinetic studies of Group VI metal carbonyl complexes. VI. Substitution reactions of the Group VI metal hexacarbonyls , 1967 .
[155] H. A. Skinner. The Strengths of Metal-to-Carbon Bonds , 1965 .
[156] F. T. Weiss,et al. Determination of Equilibrium Constants of Silver-Olefin Complexes Using Gas Chromatography , 1962 .
[157] L. Vaska,et al. CARBONYL AND HYDRIDO-CARBONYL COMPLEXES OF IRIDIUM BY REACTION WITH ALCOHOLS. HYDRIDO COMPLEXES BY REACTION WITH ACID , 1961 .
[158] J. Traynham,et al. Complexation of Cyclic Olefins with Aqueous Silver Ion and with Molecular Iodine1,2 , 1959 .
[159] L. T. D. Williams,et al. 84. The thermochemistry of organic phosphorus compounds. Part II. Ester and anilide formation from halides, and combustion of the anilides , 1956 .