ISNI: |
0000 0001 2347 6122
https://isni.org/isni/0000000123476122
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Name: |
Bercaw, John E.
Bercaw, John Edward
John E. Bercaw (American chemist)
John E. Bercaw (Amerikaans scheikundige)
John E. Bercaw (amerikansk kemiker)
John E. Bercaw (amerikansk kemist)
John E. Bercaw (amerikansk kjemikar)
John E. Bercaw (amerikansk kjemiker)
John E. Bercaw (chimiste américain)
John E. Bercaw (US-amerikanischer Chemiker)
约翰·伯考 (美国)
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Dates: |
1944- |
Creation class: |
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Creation role: |
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Titles: |
Activation of the C-N bond in nitromethane by palladium alpha-diimine complexes.
Alkylaluminum-complexed zirconocene hydrides: identification of hydride-bridged species by NMR spectroscopy.
Amine, amido, and imido complexes of tantalum supported by a pyridine-linked bis(phenolate) pincer ligand: Ta-N pi-bonding influences pincer ligand geometry.
C-H bond activation by air-stable [(diimine)M(II)(mu2-OH)]2(2+) dimers (M
C-H bond activation by [{(diimine)Pd(mu-OH)}2]2+ dimers: mechanism-guided catalytic improvement.
C----H Bond Activation by [{(Diimine)Pd(μ-OH)}₂]²⁺ Dimers: Mechanism-Guided Catalytic Improvement
Catalytic alcoholysis of tetramethylsilane via Pt-mediated C-H bond activation.
Conversion of methanol to 2,2,3-trimethylbutane (triptane) over indium(III) iodide.
Dehydrogenation of amine-boranes with a frustrated Lewis pair.
(dme)MCl3(NNPh2) (dme
Electrocatalytic functionalization of alkanes using aqueous platinum salts
Electronic structures of Pd(II) dimers.
Enhanced selectivity in the conversion of methanol to 2,2,3-trimethylbutane (triptane) over zinc iodide by added phosphorous or hypophosphorous acid.
Homogeneous CO hydrogenation: dihydrogen activation involves a frustrated Lewis pair instead of a platinum complex.
Hydrogen tunneling in protonolysis of platinum(II) and palladium(II) methyl complexes: mechanistic implications.
Kinetic and thermodynamic preferences in aryl vs benzylic C-H bond activation with cationic Pt(II) complexes.
Kinetic resolution of racemic [alpha]-olefins with ansa-zirconocene polymerization catalysts: Enantiomorphic site vs. chain end control
Kinetics and mechanism of methane, methanol, and dimethyl ether C-H activation with electrophilic platinum complexes.
Mechanistic investigations of bipyrimidine- promoted palladium-catalyzed allylic acetoxylation of olefins
Mechanistic studies of olefin and alkyne trimerization with chromium catalysts: deuterium labeling and studies of regiochemistry using a model chromacyclopentane complex.
Mechanistic studies of the ethylene trimerization reaction with chromium-diphosphine catalysts: experimental evidence for a mechanism involving metallacyclic intermediates.
Non-metallocene organometallic complexes and related methods and systems
On the mechanism of the conversion of methanol to 2,2,3-trimethylbutane (triptane) over zinc iodide.
Oxidative aromatization of olefins with dioxygen catalyzed by palladium trifluoroacetate.
Pentamethylcyclopentadienyl aminoborollide derivatives of zirconium and hafnium. A new class of amphoteric molecule having both Lewis acidic and Lewis basic sites
Pyridinium-derived N-heterocyclic carbene complexes of platinum: synthesis, structure and ligand substitution kinetics.
Reductive coupling of carbon monoxide in a rhenium carbonyl complex with pendant Lewis acids.
role of alkane coordination in C-H bond cleavage at a Pt(II) center., The
Selective methylative homologation: an alternate route to alkane upgrading.
Synthesis and characterization of iron derivatives having a pyridine-linked bis(anilide) pincer ligand.
Synthesis and reactivity of halide, hydride, and alkyl derivatives of (pentamethylcyclopentadienyl)(bisphosphine)iron(II)
Synthetic and Mechanistic Approaches to Ziegler--Natta Polymerization of Olefins With Organoscandium Compounds
Theoretical studies of Ziegler-Natta catalysis. Structural variations and tacticity control
Thermodynamic studies of [H(2)Rh(diphosphine)(2)](+) and [HRh(diphosphine)(2)(CH(3)CN)](2+) complexes in acetonitrile.
Titanocene as a reactive intermediate in the reduction of molecular hydrogen and nitrogen, 1971:
Understanding and exploiting C-H bond activation
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Notes: |
Wikipedia https://zh.wikipedia.org/wiki/约翰·伯考_(美国)
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Sources: |