Gas Phase Basicities of Phenylacetylenes. Intrinsic Resonance Demand of the 1-Phenylvinyl Cation
スポンサーリンク
概要
- 論文の詳細を見る
- 1996-02-15
著者
-
FUJIO Mizue
Institute for Fundamental Research of Organic Chemistry, Kyushu University
-
RAPPOPORT Zvi
Institute for Fundamental Research of Organic
-
TSUNO Yuho
Institute for Fundamental Research of Organic
-
Fujio M
Institute For Materials Chemistry And Engineering Kyushu University
-
Rappoport Z
Institute For Fundamental Research Of Organic Chemistry Kyushu University
-
Tsuno Y
Institute For Materials Chemistry And Engineering Kyushu University
-
Fujio Mizue
Institute For Fundamental Research Of Organic Chemistry Kyushu University
-
MISHIMA Masaaki
Institute for Fundamental Research of Organic Chemistry, Kyushu University
-
Taniguchi H
Institute For Fundamental Research Of Organic Chemistry Kyushu University
-
Fujio Mizue
Institute For Materials Chemistry And Engineering Kyushu University
-
Tsuno Y
Institute For Fundamental Research Of Organic Chemistry Kyushu University
-
Mishima M
Kyushu Univ. Fukuoka
-
Mishima Masaaki
Institute For Fundamental Research Of Organic Chemistry And Department Of Chemistry And Physics Of C
-
ARIGA Toshifumi
Institute for Fundamental Research of Organic Chemistry, Kyushu University
-
MATSUMOTO Takatsugu
Institute for Fundamental Research of Organic Chemistry, Kyushu University
-
KOBAYASHI Shinjiro
Institute for Fundamental Research of Organic Chemistry, Kyushu University
-
TANIGUCHI Hiroshi
Institute for Fundamental Research of Organic Chemistry, Kyushu University
-
Kobayashi Shinjiro
Institute For Fundamental Research Of Organic Chemistry Kyushu University
-
小林 修
Department Of Materials Chemistry Graduate School Of Engineering Kyoto University
-
Ariga T
Institute For Fundamental Research Of Organic Chemistry Kyushu University
-
Matsumoto Takatsugu
Institute For Fundamental Research Of Organic Chemistry Kyushu University
-
Fujio M
Kyushu Univ. Fukuoka
関連論文
- Solvent Effects on Anchimerically Assisted Solvolyses. II.^ Solvent Effects in Solvolyses of threo-2-Aryl-1-methylpropyl p-Toluenesulfonates
- Solvent Effects on Anchimerically Assisted Solvolyses. III.^ Solvent Effects on the Solvolyses of (1-Arylcycloalkyl)methyl p-Toluenesulfonates
- THE STUDY OF ^O-SCRAMBLING IN THE MENSCHUTKIN REACTION OF p-METHYLBENZYL TOSYLATE WITH N,N-DIMETHYLANILINES IN ACETONITRILE
- SOLVENT EFFECT ON THE SOLVOLYSIS OF BENZONORBORNEN-9(ANTI)-YL m-NITROBENZENESULFONATE
- SUBSTITUENT EFFECTS ON THE REARRANGEMENT RATIO IN SOLVOLYSIS PRODUCT OF 2-ARYLETHYL TOSYLATES
- 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
- The β-Silicon Effect : III. Substituent Effects of the β-Si-Aryl Moiety in the Solvolysis of 1-Aryl-2-(aryldimethylsilyl)ethyl 3,5-Dinitrobenzoates
- The β-Silicon Effect. II. Substituent Effects on the Solvolysis of 1-Aryl-2-(aryldimethylsilyl)ethyl 3,5-Dinitrobenzoates
- The γ-Silicon Effect. II. The Substituent Effect on the Solvolysis of 3-(Aryldimethylsilyl)-2,2-dimethylpropyl p-Bromobenzenesulfonates
- The γ-Silicon Effect. I. Solvent Effects on the Solvolyses of 2,2-Dimethyl-3-(trimethylsilyl) propyl and 3-(Aryldimethylsilyl)-2,2-dimethylpropyl ρ-Toluenesulfonates
- Solvent Effects on the Solvolysis of Benzyl Tosylates. Behavior of Derivatives with Electron-Donating Substituents
- Solvent Effects on the Solvolysis of p-Nitrobenzyl and 3,5-Bis(trifluoromethyl)benzyl p-Toluenesulfonates^
- THE STUDY OF ^O-SCRAMBLING ON THE SOLVOLYSIS OF α-t-BUTYLBENZYL TOSYLATE
- SOLVOLYSIS OF 1,1,3,3-TETRAMETHYLINDAN-2-YL SULFONATES
- Pyrolytic Elimination of 1-Ary1-2-(trimethylsilyl)ethyl Acetates via Two Distinct Pathways
- 新しいルイス酸を用いるイミン類の触媒的活性化
- ランタノイドルイス酸--環化付加反応 (ランタノイドを利用する有機合成) -- (3価のランタノイド反応剤を用いる合成)
- 水中で安定なルイス酸 -人と環境に優しい化学反応を目指して-
- The Catalytic Fries Rearrangement and o-Acylation Reactions Using Group 3 and 4 Metal Triflates as Catalysts
- ランタノイドトリフラート-水溶液中で機能するルイス酸触媒-
- Hafnium(IV) Trifluoromethanesulfonate, An Efficient Catalyst for the Fridel-Crafts Acylation and Alkylation Reactions
- 水溶液中でのルイス酸触媒反応
- 水の中での有機反応
- 研究開発情報 ランタノイドトリフラートを用いる有機合成(4)
- 研究開発情報 ランタノイドトリフラートを用いる有機合成(3)
- ランタノイドトリフラートを用いる有機合成(2)
- ランタノイドトリフラートを用いる有機合成(1)
- SOLVENT EFFECTS ON THE SOLVOLYSIS OF NEOPHYL TOSYLATES
- Substituent Effects in the 1,1-Diphenylcarbenium Systems : Hydration and Bromination of 1,1-Diphenylethylenes
- Non Linearity and Non-Additivity of Substituent Effects in Solvolysis of 1, 1-Diphenylethyl p-Nitrobenzoates
- Theγ-Silicon Effect. IV.^1 The Solvolysis Mechanism of 3-(Aryldimethylsilyl)propyl p-Toluenesulfonates
- 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^
- Substituent Effects on the Solvolysis of 2, 2, 2-Trifluoro-1, 1-diphenylethyl Tosylates. II. ^ 3-Chlorophenyl-and 3, 5-Dichlorophenyl-Fixed Systems
- Substituent Effects on the Solvolysis of 1,1-Diphenyl-2,2,2-trifluoroethyl Tosylates: Comparison between Symmetrically Disubstituted and Monosubstituted Systems
- 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^
- Changes of the Aromatic Character of the Ring in Exocyclically Substituted Derivatives of Benzylic Cation as a Result of Varying Charge at the exo-Carbon Atom
- 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 ^
- Prediction of gas-particle dynamics and heat transfer in a two-dimensional spouted bed
- The Effect of Temperature on the Minimum Fluidization Velocity Calculated by Distinct Element Method
- Numerical Analysis of Granular Convection in Two-Dimensional Pulsating Fluidized Bed
- Numerical Analsis of Density Wave in Dense Gas-Solid Flows in a Vertical Pipe
- Kinetic Isotope Effects for Addition of Lithium Pinacolone Enolate to Benzaldehyde
- Molecular-Dynamics Study of Aqueous Solution of Trehalose and Maltose: Implication for the Biological Function of Trehalose
- Effects of Trehalose on the Water Structure in Yeast Cells as Studied by in vivo ^1HNMR Spectroscopy
- Reaction of Alkynyl(phenyl)(p-phenylene)bisiodonium Ditriflates with Nucleophiles. High Reactivity of the Alkynyl Component
- Alkenyl- and Alkynyl-Substituted (p-Phenylene) bisiodonium Ditriflates by Reactions of a (p-Phenylene) bisiodine(III) Reagent with Alkynes and 1-Trimethylsilyl-1-alkynes
- A New Type of Inclusion Compounds Composed of a Charge-Transfer Complex between Tetrakis(phenylethynyl)ethene and 2,4,7-Trinitrofluorenone
- Preparation and Crystal Structure of a Parent l-Arylbenzo〔b〕thiophenium Triflate and Its Derivatives
- Novel Alkynyl-substituted(p-Phenylene)bisiodonium Ditriflates. Preparation and Reaction with Thiocyanate Ion
- Gas-Phase Acidities of Acetophenone Oximes. Substituent Effect and Solvent Effects
- VARYING RESONANCE DEMANDS IN CARBOCATIONIC SOLVOLYSES
- Synthesis of Chiral Crown Ethers Having Bromoarylene Moieties on Their Rim. Anomalous Behavior of Racemic Substrates in Cyclization to Crown Ethers
- 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
- Binding Interaction of The Trimethylsilyl Cation with Oxygen and Nitrogen Bases in the Gas Phase. Acetopheones, Benzaldehydes, Pyridines, Anilines, and N,N-Dimethylanilines
- Theoretical Study on Carbocation Formation Reactions. Resonance Demands and Transition Structures
- 寄稿 水を溶媒として用いる有機反応
- Gas Phase Substituent Effect on Basicity of Phenylacetylene. Intrinsic Resonance Demand of Phenylvinyl Cation
- Study of the Time-resolved IR Spectrum of α-Arylvinyl Cations Generated by Laser Flash Photolysis
- SOLVENT EFFECTS ON THE SOLVOLYSIS OF p-NITRO- AND 3,5-BIS(TRIFLUOROMETHYL)BENZYL TOSYLATES
- SOLVENT EFFECTS ON THE SOLVOLYSIS OF BENZYL TOSYLATES
- 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
- Reaction of Magnesium Pinacolone Enolate with Benzaldehyde : Polar or ET Mechanism?
- GAS PHASE SUBSTITUENT EFFECT OF N,N-DIMETHYLBENZAMIDE : RESONANCE DEMAND IN A HIGHLY STABILIZED CARBOCATION SYSTEM
- Experimental and Theoretical Studies of the Possible and Preferred Site of Protonation in Polyfunctional N^1, N^1-Dimethyl-N^2-benzoylformamidine in the Gas Phase
- SOLVENT EFFECT ON THE SOLVOLYSIS OF α-t-BUTYLBENZYL TOSYLATE
- SUBSTITUENT EFFECT ON THE SOLVOLYSIS OF α-t-BUTYLBENZYL TOSYLATES : SOLVENT MODIFICATION OF SUBSTITUENT EFFECTS
- 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
- The Substituent Effect. IV. Proton NMR Chemical Shifts of Phenols
- Amination of Phenylketene Revisit. Substituent Effect on Reactivity
- Gas-Phase Acidities of α- and α,α-SO_2CF_3-Substituted Toluenes. Varying Resonance Demand in the Electron-Rich System
- DFT Computations to Simulate the IR Spectrum of a Transient Intermediate Generated upon Laser Flash Photolysis of Triaryphosphines