Extension of the self-consistent spectrophotometric basicity scale in acetonitrile to a full span of 28 pKa units: unification of different basicity scales
about
Perturbing the Copper(III)–Hydroxide Unit through Ligand Structural VariationThermochemistry of proton-coupled electron transfer reagents and its implicationsReactivity of an Fe(IV)-Oxo Complex with Protons and OxidantsConcerted One-Electron Two-Proton Transfer Processes in Models Inspired by the Tyr-His Couple of Photosystem IISwitchable polarity solvent (SPS) systems: probing solvatoswitching with a spiropyran (SP)-merocyanine (MC) photoswitch.Water-assisted proton delivery and removal in bio-inspired hydrogen production catalysts.Tuning the basicity of ionic liquids for efficient synthesis of alkylidene carbonates from CO2 at atmospheric pressure.Catalytic N2-to-NH3 Conversion by Fe at Lower Driving Force: A Proposed Role for Metallocene-Mediated PCET.Aryl C-H···Cl(-) hydrogen bonding in a fluorescent anion sensorStudies of cobalt-mediated electrocatalytic CO2 reduction using a redox-active ligandPhotochemical hydrogen production and cobaloximes: the influence of the cobalt axial N-ligand on the system stability.Complexes of amino acids with a crown-ether derivative of 4-styrylpyridine. Monotopic or ditopic?Proton sponge-functionalized silica as high performance adsorbents for solid-phase extraction of trace perfluoroalkyl sulfonates in the environmental water samples and their direct analysis by MALDI-TOF-MS.Hydrogen Production Catalyzed by Bidirectional, Biomimetic Models of the [FeFe]-Hydrogenase Active Site.Proton-coupled electron transfer reactions at a heme-propionate in an iron-protoporphyrin-IX model compoundBorane-protected cyanides as surrogates of H-bonded cyanides in [FeFe]-hydrogenase active site models.Dynamic multi-component covalent assembly for the reversible binding of secondary alcohols and chirality sensingProtonation and concerted proton-electron transfer reactivity of a bis-benzimidazolate ligated [2Fe-2S] model for Rieske clustersHigher-Order Cyclopropenimine Superbases: Direct Neutral Brønsted Base Catalyzed Michael Reactions with α-Aryl Esters.New insights into the chemistry of ionic alkylorganic carbonates: a computational study.Long Range Proton-Coupled Electron Transfer Reactions of Bis(imidazole) Iron Tetraphenylporphyrins Linked to Benzoates.Controlled Organocatalytic Ring-Opening Polymerization of ε-Thionocaprolactone.Surprisingly long-lived ascorbyl radicals in acetonitrile: concerted proton-electron transfer reactions and thermochemistrySynthesis, Radical Reactivity, and Thermochemistry of Monomeric Cu(II) Alkoxide Complexes Relevant to Cu/Radical Alcohol Oxidation CatalysisThe roles of the first and second coordination spheres in the design of molecular catalysts for H2 production and oxidation.Ligand dependence of binding to three-coordinate Fe(II) complexes.Effect of basic site substituents on concerted proton-electron transfer in hydrogen-bonded pyridyl-phenols.Synthesis, structure and reactivity of Fe(II/III)-NH3 complexes bearing a tripodal sulfonamido ligand.Radical Reactivity of the Fe(III)/(II) Tetramesitylporphyrin Couple: Hydrogen Atom Transfer, Oxyl Radical Dissociation, and Catalytic Disproportionation of a HydroxylamineFast proton-coupled electron transfer observed for a high-fidelity structural and functional [2Fe-2S] Rieske model.Brønsted acidity and the medium: fundamentals with a focus on ionic liquids.Increasing the reactivity of nitrogen catalysts.Active-site models for the nickel-iron hydrogenases: effects of ligands on reactivity and catalytic properties.Separating Proton and Electron Transfer Effects in Three-Component Concerted Proton-Coupled Electron Transfer Reactions.Hydrogenase Enzymes and Their Synthetic Models: The Role of Metal Hydrides.Model of the MitoNEET [2Fe-2S] Cluster Shows Proton Coupled Electron Transfer.Concerted proton-coupled electron transfer from a metal-hydride complex.Reversible Bioconjugation: Biodegradable Poly(phosphate)-Protein Conjugates.Autocatalytic oxidative addition of PhBr to Pd(PtBu3)2 via Pd(PtBu3)2(H)(Br)Frustration across the periodic table: heterolytic cleavage of dihydrogen by metal complexes.
P2860
Q28468196-9B394E4B-9ECE-42EA-889F-61B3FF6D1AD7Q28744066-C7FE88E5-9FAD-4172-829E-29717E2BFA98Q28821358-57008A9A-F6D4-4F1C-8412-5A4532672521Q30252227-B68C9B10-87F6-4728-A56B-BB16F30FF2C2Q30659071-C84686C1-0C70-4C44-B899-4A245B726341Q30956378-61898117-CECB-43E8-96B5-423D3505482EQ33468055-18FC0B60-AC6B-4E49-844A-FED823FFD946Q33470237-69A60553-760F-459E-9455-26FEE2A7F352Q33576332-367ED87F-AF38-4C19-9D71-0EE269C1F7E8Q33662282-883F8ABF-8CE7-4A02-A4B7-BC9855447B5BQ33852584-1DF1F3FE-CC1B-446B-9668-03536349E3A0Q34063274-BAC08558-BAC7-463D-AFD5-9ECC0A91F67DQ34204106-C412B511-F66D-4B91-9709-01660C1335F7Q34408262-4E0AAF4E-6516-4C22-93FE-94C3703C5F12Q35041238-3111031C-D6E0-41AD-A90A-B55252B4D0C6Q35191300-20E85106-E997-4AFA-A963-E951BEAFA421Q35580688-19F1B162-BA9B-4B73-AEFB-F248E47F73F7Q35928432-DE9062CE-47AC-4FBC-B1E0-FF496E9F8E46Q36198542-60DCCCAE-EAD0-4CE7-A9B9-1BF167D13FECQ36392464-1E781E29-B4F4-4848-8A00-481E4D0E9DA6Q36671372-0E8F72FD-7D13-41F6-B8AE-EE7504230EB1Q36888310-835E3FCB-F608-4493-8DF8-AE43605F0FA4Q36916581-EA6E8F6F-67F7-4530-BFCA-D2EEF9B98F8CQ37148877-F82D941E-410B-44C5-A7C0-D0DCF352A846Q37352679-1D9A41F2-D232-489D-A4C3-49915BA0F85DQ37471153-02D7E30B-7AA2-4315-B119-2AA129FFB38BQ37589331-F470F3F6-2735-4689-8F92-FEC40545EDCBQ37638156-FC8A1072-FD04-49BA-8316-2C02D5DB624EQ37694776-5757C3AD-A160-4FB8-BC86-283158211059Q37701574-F776961E-64F6-463D-9F2F-508CD4FBB879Q37883994-FF312965-20DD-4F0A-8B46-CE60AC5D133AQ37947516-5F987E4E-589A-4CF7-BBF0-2F34DF72464EQ38592289-F45962D6-94CB-4141-B307-8A962530E9D6Q38696986-553BF453-22AE-44B8-9851-BACAD290B14CQ38880043-967E0FB8-8BAF-4C9C-875C-758509D61FF1Q39038630-2312B32C-ADE7-4EE3-98EA-BE7191250B0CQ39051165-348910F6-D336-415A-B757-2FF253B6BC97Q39108685-A009E2F1-CD9E-4B9F-9820-39C1C6D14437Q39283783-54D2AC90-66B1-477B-A575-84A8AE864FB2Q39455495-6BBB4CBA-BFE5-40C6-8DEB-3FB6FCF004C7
P2860
Extension of the self-consistent spectrophotometric basicity scale in acetonitrile to a full span of 28 pKa units: unification of different basicity scales
description
2005 nî lūn-bûn
@nan
2005 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Extension of the self-consiste ...... n of different basicity scales
@ast
Extension of the self-consiste ...... n of different basicity scales
@en
Extension of the self-consiste ...... n of different basicity scales
@nl
type
label
Extension of the self-consiste ...... n of different basicity scales
@ast
Extension of the self-consiste ...... n of different basicity scales
@en
Extension of the self-consiste ...... n of different basicity scales
@nl
prefLabel
Extension of the self-consiste ...... n of different basicity scales
@ast
Extension of the self-consiste ...... n of different basicity scales
@en
Extension of the self-consiste ...... n of different basicity scales
@nl
P50
P356
P1476
Extension of the self-consiste ...... n of different basicity scales
@en
P2093
Lilli Sooväli
P304
P356
10.1021/JO048252W
P407
P577
2005-02-04T00:00:00Z