All Stories

  1. Thermodynamics for complex formation between palladium(ii) and oxalate
  2. Structures of polynuclear complexes of palladium(ii) and platinum(ii) formed by slow hydrolysis in acidic aqueous solution
  3. Bridge-splitting of trans-[PtCl2(η2-CH2CH2)]2 by weak nucleophiles: Crystal and molecular structure of trans-[PtCl2(η2-CH2CH2)(MeCN)]
  4. Bridge splitting of trans-[PtCl2(C2H4)]2 by ethene using a simple combined NMR–UV/vis cell: Crystal and molecular structure of cis-[PtCl2(C2H4)2]
  5. Kinetics and Equilibria for Complex Formation between Palladium(II) and Chloroacetate
  6. Pseudo-rotation mechanism for fast olefin exchange and substitution processes at orthometalated C,N-complexes of platinum(ii)
  7. Bridge-splitting kinetics, equilibria and structures of trans-biscyclooctene complexes of platinum(ii)Electronic supplementary information (ESI) available: observed pseudo-first order rate constants for bridge splitting reactions, absorbance versus add...
  8. Kinetics and mechanism for reduction of halo- and haloam(m)ine platinum(IV) complexes by l-ascorbate
  9. Low temperature kinetic study of very fast substitution reactions at platinum(ii) trans to olefins
  10. Substitution reactions of [Pt(dien)Cl]+, [Pt(dien)(GSMe)]2+, cis-[PtCl2(NH3)2] and cis-[Pt(NH3)2(GSMe)2]2+ (GSMe =S-methylglutathione) with some sulfur-bonding chemoprotective agents
  11. Kinetic and Computational Study of Dissociative Substitution and Phosphine Exchange at Tetrahedrally Distorted cis-Pt(SiMePh2)2(PMe2Ph)2
  12. Kinetics and Mechanism for Reversible Chloride Transfer between Mercury(II) and Square-Planar Platinum(II) Chloro Ammine, Aqua, and Sulfoxide Complexes. Stabilities, Spectra, and Reactivities of Transient Metal−Metal Bonded Platinum−Mercury Adducts
  13. Kinetics and mechanism for reduction of anticancer-active tetrachloroam(m)ine platinum(IV) compounds by glutathione
  14. Kinetics and Mechanism for Reduction of the Anticancer Prodrug trans,trans,trans-[PtCl2(OH)2(c-C6H11NH2)(NH3)] (JM335) by Thiols
  15. Kinetics and mechanism for reduction of oral anticancer platinum(IV) dicarboxylate compounds by L-ascorbate ions †
  16. Reaction Mechanism for Olefin Exchange at Chloro Ethene Complexes of Platinum(II)
  17. ChemInform Abstract: Iron—Manganese Redox Processes and Synergism in the Mechanism for Manganese‐Catalyzed Autoxidation of Hydrogen Sulfite.
  18. Kinetics and mechanism for reduction of trans-dichloro-tetracyanoplatinate(IV) by tetraammineplatinum(II) and bis(ethylenediamine)platinum(II)
  19. Kinetics and Mechanism for Formation of Olefin Complexes in the Reaction between Palladium(II) and Maleic Acid
  20. Iron−Manganese Redox Processes and Synergism in the Mechanism for Manganese-Catalyzed Autoxidation of Hydrogen Sulfite
  21. Trans influence of triphenylstibine. Crystal and molecular structures of cis-[PtCl2(SbPh3)2] and trans-[PtI2(SbPh3)2]
  22. Role of chromium and vanadium in the atmospheric oxidation of sulfur(IV)
  23. Facile Synthesis of Isomerically Pure cis ‐Dichlorodiammineplatinum(II), Cisplatin
  24. Kinetics of interaction of the thione unit in 4-thio-2′-deoxyuridine and 4-thiouridine 5′-monophosphate with rapidly reacting gold(III) complexes ‡
  25. Detection of a novel intermediate in the addition of thiols to osmium carbonyl clusters
  26. Equilibria, Kinetics and Mechanism for Complex Formation Between Hydrogen Sulfate/Sulfate and Palladium(II). Hydrolysis of Tetraaquapalladium(II).
  27. Equilibria, Kinetics, and Mechanism for Rapid Substitution Reactions Trans to Triphenylsilyl in Platinum(II) Complexes
  28. Protonolysis of Dialkyl- and Alkylarylplatinum(II) Complexes and Geometrical Isomerization of the Derived Monoorgano−Solvento Complexes:  Clear-Cut Examples of Associative and Dissociative Pathways in Platinum(II) Chemistry
  29. Synthesis, Structure, and Reactivity of Arylchlorobis(dialkyl sulfide)platinum(II) Complexes
  30. Linear Free Energy Relationships for Complex Formation Reactions between Carboxylic Acids and Palladium(II). Equilibrium and High-Pressure Kinetics Study
  31. Acetonitrile and propionitrile exchange at palladium(II) and platinum(II) †
  32. trans Effect and trans influence of triphenyl-stibine and -phosphine in platinum(II) complexes. A comparative mechanistic and structural study ‡
  33. Kinetics and mechanism of reduction of gold(III) complexes by dimethyl sulfide
  34. Kinetics of oxygen-atom transfer reactions involving molybdenum dithiolene complexes †
  35. Reduction of trans-dichloro- and trans-dibromo-tetracyanoplatinate(IV) by L-methionine
  36. Transition Metal Ions in Atmospheric Waters
  37. Platinum Complexes Suitable as Precursors for Synthesis in Nonaqueous Solvents
  38. Structure−Reactivity Correlations for Complex Formation Reactions between Square-Planar Metal Centers and Thioethers
  39. Letter
  40. Competitive Substitution and Electron Transfer in Reactions between Haloamminegold(III) and Halocyanoaurate(III) Complexes and Thiocyanate
  41. Kinetics and Mechanism for Reduction of trans-Dichlorotetracyanoplatinate(IV) by Thioglycolic Acid, l-Cysteine, dl-Penicillamine, and Glutathione in Aqueous Solution
  42. Tetrakis(Propanenitrile)Platinum(II) Trifluoromethanesulfonate as a Suitable Intermediate in Synthetic Pt(II) Chemistry
  43. Equilibrium and High-Pressure Kinetic Study of Formation and Proton-Assisted Aquation of Monodentate Acetate, Propionate, and Glycolate Complexes of Palladium(II) in Aqueous Solution
  44. Theoretical Modeling of Water Exchange on [Pd(H2O)4]2+, [Pt(H2O)4]2+, and trans-[PtCl2(H2O)2]
  45. Kinetics and mechanisms for reduction of trans-dichlorotetracyanoplatinate(IV) by thioglycolic acid, L-cysteine, DL-penicillamine and glutathione in aqueous solution
  46. Kinetics and Mechanism for Reduction of Tetrachloroaurate(III), trans-Dicyanodichloraurate(III), and trans-Dicyanodibromoaurate(III) by Sulfite and Hydrogen Sulfite
  47. Kinetics and Mechanism for Oxidation of Dissolved Sulfur Dioxide by Tetracyanodichloroplatinate(IV) in Acidic Aqueous Solution and for Formation and O-S Linkage Isomerization of Sulfitotetracyanochloroplatinate(IV)
  48. New methods for synthesis of platinum(II) dimethyl sulfide complexes
  49. ChemInform Abstract: Kinetics and Mechanism for Manganese‐Catalyzed Oxidation of Sulfur(IV) by Oxygen in Aqueous Solution.
  50. Kinetics and mechanism for the redox reaction between hexaaquathallium(III) and sulfur dioxide in acidic aqueous solution
  51. Kinetics of carbon monoxide exchange in chloro and bromo carbonyl complexes of palladium(II) and platinum(II)
  52. Reaction of peroxomonosulfate radical with manganese(II) in acidic aqueous solution. A pulse radiolysis study
  53. Kinetics and mechanism for manganese-catalyzed oxidation of sulfur(IV) by oxygen in aqueous solution
  54. cis/trans-influences in Pt(II)-complexes. Structure oftrans-chlorobis(dimethylsulfide)(phenyl)platinum(II)
  55. Phenylation of Platinum(II) Thioether Complexes by Tetraphenylborate(III) in Solid State and Nitromethane Solution
  56. PHENYLATION OF PLATINUM(II) THIOETHER COMPLEXES BY TETRAPHENYLBORATE(III) IN SOLID STATE AND NITROMETHANE SOLUTION
  57. High-pressure stopped-flow study of kinetics and mechanism for complex formation reactions of tetraaquapalladium(II) and platinum(II) with thioethers in aqueous solution
  58. Proton NMR kinetic study of ligand exchange on bis(1,4-dithiane)platinum(II), bis(1,4-dithiane)palladium(II), and tetrakis(dimethyl sulfide)platinum(II)
  59. Synthesis and Studies of Alkynyl Pyrimidinones as Metaphase Inhibitors.
  60. Structures of Solvated Cations of Palladium(II) and Platinum(II) in Dimethyl Sulfoxide, Acetonitrile and Aqueous Solution Studied by EXAFS and LAXS.
  61. cis- and trans-Influence on Bond Distances. Synthesis and Crystal Structures of the Bis(trifluoromethanesulfonates) of Tetrakis(dimethyl sulfide)- and Tetrakis(1,4-thioxane)platinum(II).
  62. trans influence on bond distances. Structures of trans-diiodobis(tetrahydrothiophene)palladium(II) and trans-diiodobis(tetrahydrothiophene)platinum(II)
  63. Solvent exchange and complex formation reactions of Pd(II) in aqueous solution: mechanistic information from high pressure studies
  64. Water exchange of trans-dichlorodiaquaplatinum(II) and tetraaquaplatinum(II) studied by an oxidative-addition quenching technique. Isotopic shifts and platinum-195 NMR chemical shifts for mixed chloro-aqua complexes of platinum(II) and platinum(IV)
  65. Kinetics and mechanism for reaction between ammine- and haloamminegold(III) complexes and thiocyanate. Competitive electron transfer and substitution
  66. High-pressure NMR kinetics. 36. 1H NMR kinetic study of dimethyl sulfoxide exchange on tetrakis(dimethyl sulfoxide)platinum(II) at variable temperature and pressure
  67. Mechanism for formation and aquation of palladium(II) acetonitrile complexes in aqueous solution. Variable-temperature and variable pressure study of stabilities and kinetics
  68. Mechanisms for oxidative addition of molecular chlorine to tetracyanoplatinate(II). Formation of trans-dichlorotetracyanoplatinate(IV) via a platinum(III) intermediate
  69. Synthesis and crystal structure of tetrakis(dimethylsulfoxide) platinum(II) bis(triflouromethanesulfonate)
  70. Kinetics and thermodynamics for complex formation between palladium(II) and dimethyl sulfoxide as a function of temperature and pressure
  71. Mechanism for oxidation of tetracyanoplatinate(II) by gold(III) complexes
  72. Kinetics and mechanism for reduction of ammine and haloammine complexes of gold(III) by iodide
  73. Mechanisms for acceleration of halide anation reactions of platinum(IV) complexes. REOA versus ligand assistance and platinum(II) catalysis Without central ion exchange
  74. Stabilities, solubility, and kinetics and mechanism for formation and hydrolysis of some palladium(II)and platinum(II) iodo complexes in aqueous solution
  75. Synthesis and crystal structure of potassium tetranitrato palladate(II)
  76. Crystal Structure of BaSiF6 at 180 K.
  77. A tetra-nitrato complex of platinum(II). Synthesis and crystal structure of K2[Pt(NO3)4]·H2O
  78. Kinetics and mechanism for oxidation of tetracyanoplatinate(II) by chlorine and hypochlorous acid and for hydrolysis of chlorine in aqueous solution
  79. High-pressure NMR kinetics. 21. Activation parameters and mechanism for water exchange of tetraaquaplatinum(II) studied by high-pressure oxygen-17 NMR spectroscopy
  80. VARIABLE PRESSURE OXYGEN-17 FTNMR AND STOPPED-FLOW KINETIC STUDY OF WATER EXCHANGE AND DMSO SUBSTITUTION ON SQUARE-PLANAR TETRAAQUA-PALLADIUM (II) AND -PLATINUM (II)
  81. Water‐Exchange Mechanism of Tetraaquapalladium(II). A Variable‐Pressure and Variable‐Temperature Oxygen‐17 NMR Study
  82. Transition Metal Complexes with Bidentate Ligands Spanning trans‐Positions. XII. Steric effects in the kinetics and mechanism of substitutions at hydride and methyl bisphosphine platinum (II) complexes
  83. Water exchange and solvolysis in dimethyl sulfoxide of square-planar tetraaquaplatinum(II). A platinum-195 NMR study
  84. Kinetics and mechanism for reduction of tetrachloro- and tetrabromoaurate(III) by iodide
  85. Kinetics and mechanism of the reaction between tetrachloro- and tetrabromo-aurate(III) and thiocyanate
  86. Substitution reactions of linear complexes
  87. Substitution reactions of square-planar complexes
  88. Substitution reactions of tetrahedral complexes
  89. Substitution reactions of five-co-ordinate complexes
  90. Solvent paths for square-planar substitutions. Part 2. Reactions between aqua chloroplatinates(II) and ethene
  91. Kinetics and mechanism for ligand substitution reactions of square-planar (dimethyl sulfoxide)platinum(II) complexes. Stability and reactivity correlations
  92. Electronic absorption spectra of square-planar chloro-aqua and bromo-aqua complexes of palladium(II) and platinum(II)
  93. The solvent path in square-planar substitutions. kinetics and mechanism for reactions of tetrachloroplatinate(II) andaquachloroplatinates(II) with halides, thiocyanate and dimethyl sulfoxide
  94. Stabilities of platinum(II) chloro and bromo complexes and kinetics for anation of the tetraaquaplatinum(II) ion by halides and thiocyanate
  95. Kinetics, Mechanism and Equilibria for Halide Substitution Processes of Chloro Bromo Complexes of Gold(III).
  96. Kinetics, mechanism, and equilibrium for formation/cleavage of a dinuclear iodide-bridged complex of palladium(II)
  97. Rates and mechanisms for halide anation reactions of platinum(IV) complexes
  98. Bromide anation kinetics for some platinum(IV) bromo aqua complexes
  99. Preparation and properties of the tetra-aquaplatinum(II) ion in perchloric acid solution
  100. The mechanism for chloride anation of trans-tetracyanochloroaquaplatinate(IV)
  101. Kinetics and mechanism for chloride anation of some platinum(IV) aqua complexes in the presence of platinum(II)
  102. A reaction mechanism for oxidative addition of halogen to platinum(II), reductive elimination of halide from platinum(IV) and halide assisted anations of platinum(IV) complexes
  103. Kinetics for anation of aqua palladate(II) complexes
  104. Palladium(II) halide complexes. III. Acid hydrolyses and halide anations of cis- and trans-dichlorodiaquapalladium(II) and -dibromodiaquapalladium(II)
  105. Palladium(II) halide complexes, II. Acid hydrolyses and halide anations of palladium(II) chloro and bromo aqua complexes
  106. Palladium(II) halide complexes. I. Stabilities and spectra of palladium(II) chloro and bromo aqua complexes
  107. Platinum(IV) and bromo aqua complexes. Acid hydrolysis equilibria and kinetics of bromide anation
  108. Acid Hydrolysis of Tetrabromoplatinate(II) and Bromide Anation of Tribromoaquoplatinate(II).
  109. Equilibria, Rates of Formation, and Bromide Anations of cis- and trans-Dibromodiaquaplatinum(II).
  110. The Stepwise Dissociation of the Tetrachloroplatinate(II) Ion in Aqueous Solution. V. Chloride Anations of the Chloro Aqua Complexes of Platinum(II).
  111. The Stepwise Dissociation of the Tetrachloroplatinate(II) Ion in Aqueous Solution. VI. Rates of Formation and Equilibria of the Chloro Aqua Complexes of Platinum(II).
  112. The Stepwise Dissociation of the Tetrachloroplatinate(II) Ion in Aqueous Solution. IV. The Chlorotriaquaplatinum(II) Ion.
  113. Stepwise Dissociation of the Tetrachloroplatinate(II) Ion in Aqueous Solution. III. Influence of Temperature on Kinetics and Equilibrium of the First Step.
  114. On the Stepwise Dissociation of the Tetrachloridoplatinate(II) Ion in Aqueous Solution. I. Equilibria at 25 degrees C.
  115. The Stepwise Dissociation of the Tetrachloridoplatinate(II) Ion in Aqueous Solution. II. Kinetics of the First Step.