Stability of Complexes of Phenylacetylides and Benzyl Alkoxides with Methanol in the Gas Phase. Acid-Base Correlation in the Ionic Hydrogen-Bond Strength

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CARBON-13 NMR STUDIES ON REACTION MECHANISMS (V) : SALT EFFECTS ON ACETOLYSIS OF 2-(p-ANISYL)ETHYL TOSHYLATE
CARBON-13 NMR STUDIES ON REACTION MECHANISMS (III) : ACETOLYSIS OF p-ANISYLETHYL TOSYLATE
CARBON-13 NMR STUDIES OF REACTION MECHANISMS (II) : ACETOLYSIS OF PHENYLETHYL TOSYLATE
Thermodynamic Stabilities and Resonance Demand of Aromatic Radical Anions in the Gas Phase
Substituent Effect on Gas Phase Basicity of cis 2-Phenyl-2-butene. Intrinsic Resonance Demand of α,α-Dialkylbenzyl Carbocations
Substituent Effects on the Solvolysis Rates and Gas Phase Stabilities of 1,2,2-Trimethyl-1-phenylpropyl and 1,2,2-Trimethyl-1-(2-methylphenyl)propyl Systems
Thermodynamic Stabilities of Phenonium Ions Based on Bromide-Transfer Equilibria in the Gas Phase^
Gas-Phase Substituent Effects in Highly Electron-DeGFicient Systems. II. Stabilities of 1 -Aryl-2, 2, 2-trifluoroethyl Cations Based on Chloride-Transfer Equilibria^
Resonance Effects in the Solvolysis of α-τ-Butyl-α-.neopentylbenzyl and α-τ-Butyl-α-isopropylbenzyl ρ-Nitrobenzoates
Gas-Phase Substituent Effects in Higbly Electron-Deficient Systems. I. Intrinsic Stabilities of 1-Aryl-1-(trifluoromethyl)ethyl Cations^
Gas-Phase Substituent Effects in Stabilized Benzylic Carbocations. Basicities of Benzaldehydes, Acetophenones, and Methyl Benzoates in the Gas Phase^
Gas Phase Basicities of Phenylacetylenes. Intrinsic Resonance Demand of the 1-Phenylvinyl Cation
Substituent Effects on Chloride Transfer Equilibrium in the Gas Phase. Intrinsic Resonance Demand of Benzyl Cation ^
Kinetic Isotope Effects for Addition of Lithium Pinacolone Enolate to Benzaldehyde
Gas Phase Basicities of α-Trimethylsilylstyrenes. Intrinsic Effect of α-Trimethylsilyl Group on the Stability of Carbenium Ions
GAS PHASE SUBSTITUENT EFFECT ON BASICITY OF PHENYLACETYLENE : INTRINSIC RESONANCE DEMAND OF A VINYLIC CATION
Substituent Effect on the Gas Phase Basicity of Pyridine N-Oxide
Substituent Effect on the Gas Phase Basicity of α-t-Butylstyrene. Coplanarity and Resonance Demand of a Benzylic Carbocation
Gas-Phase Lithium Cation Basicities of Acetophenones : A Linear Relationship between Lithium Cation and Proton Basicities
Gas Phase Substituent Effect on Basicity of Phenylacetylene. Intrinsic Resonance Demand of Phenylvinyl Cation
Stability of Complexes of Phenylacetylides and Benzyl Alkoxides with Methanol in the Gas Phase. Acid-Base Correlation in the Ionic Hydrogen-Bond Strength
Substituent Effects on the Gas Phase Acidity of Phenylacetylenes and Benzyl Alcohols
Substituent Effect on Electron Affinity of 2,6-Dimethylnitrobenzene
Effect of the Twisted Nitro Group on Gas Phase Acidities of Phenol, toluene, Aniline, and Benzoic Acid. Steric Inhibition of Intrinsic Resonance Effect
Gas Phase Basicities of Styrenes toward Trimethylsilyl Cation. Structure and Stability of Me_3Si-Styrene^+ Complexes
Gas Phase Basicities of Acetophenones toward Trimethylsilyl Cation
SUBSTITUENT EFFECT ON THE GAS PHASE BASICITY OF PYRIDINE N-OXDE
GAS PHASE SUBSTITUENT EFFECT OF N,N-DIMETHYLBENZAMIDE : RESONANCE DEMAND IN A HIGHLY STABILIZED CARBOCATION SYSTEM
EFFECTS OF THE TWISTED NITRO GROUP ON ^C CHEMICAL SHIFTS OF BENZENE DERIVATIVES
SUBSTITUENT EFFECTS ON GAS PHASE BASICITIES OF ACETOPHENONES
SUBSTITUENT EFFECTS ON CARBON-13 MNR CHEMICAL SHIFTS (III) : p-SUBSTITUTED FLUOROBENZENES
THE SUBSTITUENT EFFECT ON CARBON-13 NMR CHEMICAL SHIFTS (II) : ^C CHEMICAL SHIFTS OF p-SUBSTITUTED NITROBENZENES
CARBON-13 NMR CHEMICAL SHIFTS OF MONOSUBSTITUTED BENZENES
CARBON-13 NMR CHEMICAL SHIFTS OF SUBSTITUTED ACETOPHENONES IN SULFURIC ACID
NMR CHEMICAL SHIFTS OF HYDROGEN-BOUNDING HYDROXYL PROTON OF SUBSTITUTED PHENOLS IN ACETONITRILE
SUBSTITUENT EFFECTS ON CHLORIDE TRANSFER EQUILIBRIA IN THE GAS PHASE
Substituent effects. XXI. Solvolysis of benzyl tosylates.
Substituent effects. XVIII. The resonance demand in the acetolysis of neophyl brosylates.
Substituent effects. XX. Highly electron-deficient carbocation solvolyses.
Substituent effects. XIX. Solvolysis of 1-aryl-1-(trifluoromethyl)ethyl tosylates.
Photolysis of alcohols and alkanones in acetone solutions. Photochemical [2+2]cycloaddition reaction between acetone and aliphatic enols.
The Substituent Effect. V. NMR Chemical Shifts of Hydrogen-bonding Hydroxyl Proton of Phenols in DMSO

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