Temperature- and pressure-dependent stopped-flow kinetic studies of jack bean urease. Implications for the catalytic mechanismFixation of CO2by Zinc(II) Chelates in Alcoholic Medium. X-ray Structures of {[Zn(cyclen)]3(μ3-CO3)}(ClO4)4and [Zn(cyclen)EtOH](ClO4)2A Spectroscopic and Mechanistic Study of the Enolization and Diol Formation of Hexafluoroacetylacetone in the Presence of Water and AlcoholWater Exchange Controls the Complex-Formation Mechanism of Water-Soluble Iron(III) Porphyrins: Conclusive Evidence for Dissociative Water Exchange from a High-Pressure (17)O NMR Study The authors gratefully acknowledge financial support from the DeuHigh-Pressure Oxygen-17 NMR Study of the Dihydroxo-Bridged Rhodium(III) Hydrolytic Dimer. Mechanistic Evidence for Limiting Dissociative Water Exchange Pathways.Kinetics, mechanism, and spectroscopy of the reversible binding of nitric oxide to aquated iron(II). An undergraduate text book reaction revisited.Kinetic and mechanistic studies on the reaction of nitric oxide with a water-soluble octa-anionic iron(III) porphyrin complex.A comparative mechanistic study of the reversible binding of NO to a water-soluble octa-cationic Fe(III) porphyrin complex.Thermodynamic and kinetic studies on reactions of Pt(II) complexes with biologically relevant nucleophiles.Oxidation of hydroxyurea with oxovanadium(V) ions in acidic aqueous solution.Influence of an extremely negatively charged porphyrin on the reversible binding kinetics of NO to Fe(III) and the subsequent reductive nitrosylation.Ligand-exchange processes on solvated lithium cations: DMSO and water/DMSO mixtures.Kinetics and mechanism of the substitution reactions of [PtCl(bpma)]+, [PtCl(gly-met-S,N,N)] and their aqua analogues with L-methionine, glutathione and 5'-GMP.Novel iron(III) porphyrazine complex. Complex speciation and reactions with NO and H2O2.Rapid identification of RoHS-relevant flame retardants from polymer housings by ultrasonic extraction and RP-HPLC/UV.Effect of chelate dynamics on water exchange reactions of paramagnetic aminopolycarboxylate complexes.Mechanistic studies on the binding of nitric oxide to a synthetic heme-thiolate complex relevant to cytochrome p450.Direct measurements of rate constants and activation volumes for the binding of H2, D2, N2, C2H4, and CH3CN to W(CO)3(PCy3)2: theoretical and experimental studies with time-resolved step-scan FTIR and UV-vis spectroscopy.Elucidation of the solution structure and water-exchange mechanism of paramagnetic [Fe(II)(edta)(H(2)O)](2-).Application of high pressure laser flash photolysis in studies on selected hemoprotein reactions.Triggering water exchange mechanisms via chelate architecture. Shielding of transition metal centers by aminopolycarboxylate spectator ligands.The impact of tripodal chelates on water exchange kinetics and mechanisms: a variable temperature and pressure 17O NMR study to clarify the structure-reactivity relationship in [Fe(II)(L)(H2O2](-) complexes.Is bis(trifluoromethylsulfonyl)amide an innocent anion? X-ray structure data and DFT calculations.Analysis of flame retardant additives in polymer fractions of waste of electric and electronic equipment (WEEE) by means of HPLC-UV/MS and GPC-HPLC-UV.Detailed spectroscopic, thermodynamic, and kinetic studies on the protolytic equilibria of Fe(III)cydta and the activation of hydrogen peroxide.Fundamental signatures of short- and long-range electron transfer for the blue copper protein azurin at Au/SAM junctionsThe classic "brown-ring" reaction in a new medium: kinetics, mechanism, and spectroscopy of the reversible binding of nitric oxide to iron(II) in an ionic liquid.Thermodynamic and kinetic behaviour of [Pt(2-methylthiomethylpyridine)(OH2)2]2+.Novel dinuclear platinum(II) complexes containing mixed nitrogen-sulfur donor ligands.Effect of pressure on electron transfer reactions in inorganic and bioinorganic chemistry.Kinetics and mechanism of the reaction of hydrogen sulfide with diaquacobinamide in aqueous solution.Metal complex-assisted activation of small molecules. From NO to superoxide and peroxides.Understanding chemical reaction mechanisms in ionic liquids: successes and challenges.Mechanistic studies on the reactions of platinum(II) complexes with nitrogen- and sulfur-donor biomolecules.Post-combustion syntheses of PCDD/F and PBDD/F from halogen-rich fuel is suppressed by a pebble heater technology.Spectroscopic and Kinetic Evidence for the Crucial Role of Compound 0 in the P450cam -Catalyzed Hydroxylation of Camphor by Hydrogen Peroxide.Host-guest complexes of mixed glycol-bipyridine cryptands: prediction of ion selectivity by quantum chemical calculations, part VVolume profile analysis for the reversible binding of superoxide to form iron(II)-superoxo/Iron(III)-peroxo porphyrin complexes.Reinvestigation of the formation of a mononuclear Fe(III) hydroperoxido complex using high pressure kinetics.Ligand-exchange processes on solvated zinc cations: water exchange on [Zn(H2O)4(L)]2+.2H2O (L=heterocyclic ligand).
P50
Q24600838-0D4BD2B9-4DC2-442A-A62D-BA5F31FA97F2Q29396747-2B9599B5-2F7C-4BB2-88D5-F8C618A1F3DEQ29398411-464A2CBE-02CB-4163-B219-E0BFA2F43477Q30651911-645093A3-F811-4FD1-9601-6C44642E6891Q30663757-71C6BBD0-1F0F-443A-A23A-C025B606ACD8Q30669551-F94BFF8A-35F2-43A9-AC63-9E54AB4F7ED8Q31012590-24A82112-D8B1-4EAA-97E9-FC1222412EC1Q31030828-901203D8-849C-4596-84D4-13DC1544931CQ31035057-7AF1DE62-7DEF-4190-881C-A8B7026FCCAAQ31048816-6D384E4E-1244-49AF-A846-46E9536268B4Q31106413-9CB132D4-F89C-4C8A-972F-841288306DA6Q31113724-141FEE5F-8173-4FC1-B315-52F186C4CDC5Q31122238-C09F5192-679F-42E0-831D-DEA85D730960Q31150086-66ECF9CC-5059-4E29-9BBD-BDA8E4310CFCQ31156725-D447C042-908E-45FC-B0B0-F38202A7DF6AQ31156883-DDE68253-4B1A-4C3A-B37F-08DF2A67A591Q31159452-BCB07929-03CE-4985-8583-CA1E92A4F7F9Q33265471-DEC7B7D9-C3D2-44FE-9EAF-854BA0F639ACQ33285856-023198B9-4460-43E4-9F37-AD585DB78BE7Q33367840-738F2F89-25E5-423B-8B1A-3835A992BCADQ33374385-DA3923DB-5FF0-487F-AC97-B5899544E819Q33375993-44813C9C-424F-4C95-AE78-5ACFDBB59445Q33424551-D702E99C-7471-4B46-B304-D106AF75EBAAQ33432967-5BF1F8F5-6744-4612-9344-83CF61124F35Q33484301-336950A0-7357-4745-8E98-1D7B0F2B8FF4Q33733813-32167900-4398-4683-954C-084F5467394DQ33853101-83B8B794-417E-4CBB-BDD8-9E73200F918DQ34063391-797794A7-6213-4763-BC0B-7AE27565CEDBQ34074778-2711C2AF-8CC4-42EC-9022-C3E609964DE2Q34620092-165EF8FC-A7C4-4B1E-B22E-73847BA22FECQ34856846-EC2915DF-34CC-4EE4-8663-2C3CA6C924D7Q37283512-9AA6B029-1D9D-4F4B-9B4E-69262787A4BDQ37809755-F98A6C8C-0840-4270-AD53-40540A8262DEQ38034439-EDA0FAE5-A78F-496E-A5D9-8A8F20662E39Q40155633-734B1165-9D25-4107-A30E-9C468AF1DAB1Q40557386-7D7BE756-4133-4F30-BC03-775399078AB9Q42053026-A5976F1A-12A3-419C-8CF0-5E8BA596BB31Q42831610-DA652B41-64D8-4670-9A7F-220438A48C0DQ42963157-958B7B49-DB4A-4A4C-940D-5044BF9A472EQ43063650-064316BF-2CA0-4094-9051-F87F9CB332BF
P50
description
Duits universitair docent (1945-)
@nl
chimiste allemand
@fr
südafrikanisch-niederländischer Chemiker und Hochschullehrer
@de
tysk professor
@da
tysk professor
@sv
name
Rudi Eldik
@en
Rudi Eldik
@sl
Rudi van Eldik
@ca
Rudi van Eldik
@da
Rudi van Eldik
@de
Rudi van Eldik
@es
Rudi van Eldik
@fr
Rudi van Eldik
@nds
Rudi van Eldik
@nl
Rudi van Eldik
@pt
type
label
Rudi Eldik
@en
Rudi Eldik
@sl
Rudi van Eldik
@ca
Rudi van Eldik
@da
Rudi van Eldik
@de
Rudi van Eldik
@es
Rudi van Eldik
@fr
Rudi van Eldik
@nds
Rudi van Eldik
@nl
Rudi van Eldik
@pt
altLabel
Eldik
@de
Magic Rudi
@de
prefLabel
Rudi Eldik
@en
Rudi Eldik
@sl
Rudi van Eldik
@ca
Rudi van Eldik
@da
Rudi van Eldik
@de
Rudi van Eldik
@es
Rudi van Eldik
@fr
Rudi van Eldik
@nds
Rudi van Eldik
@nl
Rudi van Eldik
@pt
P1006
P214
P227
P244
P268
P269
P1006
P1412
P1559
Rudi van Eldik
@de
P19
P21
P213
0000 0001 0872 1097
P214
P227
P244
P268
P269
P31
P569
1945-08-08T00:00:00Z