120-94-5Relevant articles and documents
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Nakajima
, p. 1218 (1961)
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Searles et al.
, p. 4917,4918 (1956)
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Gas-Phase Elimination Kinetics of (Dimethylamino)alkyl Acetates. The Ion-Pair Mechanism through Neighboring Group Participation.
Chuchani, Gabriel,Rotinov, Alexandra,Dominguez, Rosa M.,Gonzalez, Neil
, p. 4157 - 4160 (1984)
The gas-phase elimination kinetics of some amino esters and a keto acetate have been studied in the temperature region of 260.0-411.5 deg C and in the pressure range of 21.5-170.0 torr.These eliminations, in vessels seasoned with allyl bromide, are predominantly unimolecular and homogenous and obey a first order rate law.The rate coefficients for the reactions are expressible by the following Arrhenius equations: for 3-(dimethylamino)-1-propyl acetate (1), log k1 (s-1) = (12.97 +/- 0.20) - (202.1 +/- 2.5) kJ mol-1 (2.303RT)-1; for 4-(dimethylamino)-1-butyl acetate (4), log k1 (s-1) = (11.91 +/- 0.43) - (163.5 +/- 4.8) kJ mol-1 (2.303 RT)-1; for 4-oxo-1-pentyl acetate (7), log k1 (s-1) = (12.77 +/- 0.36) - (202.8 +/- 4.6) kJ mol-1 (2.303RT)-1.The presence of the (CH3)2N group in these acetates appears to provide anchimeric assistance in the elimination; methyl acetate and the corresponding heterocyclic products arise from an intimate ion-pair mechanism.The CH3CO substituent is believed to influence the pyrolysis rate of 5-acetoxy-2-pentanone by a weak steric acceleration.
Poisoning and Reuse of Supported Precious Metal Catalysts in the Hydrogenation of N-Heterocycles Part?I: Ruthenium-Catalysed Hydrogenation of 1-Methylpyrrole
Heged?s, László,Sz?ke-Molnár, Kristóf,Sajó, István E.,Srankó, Dávid Ferenc,Schay, Zoltán
, p. 1939 - 1950 (2018)
Abstract: Poisoning phenomena of heterogeneous, supported precious metal catalysts caused by nitrogen were investigated in the liquid-phase hydrogenation of 1-methylpyrrole (MP) to 1-methylpyrrolidine (MPD) over ruthenium on carbon, in non-acidic medium (methanol), at 10?bar and 25–60?°C. Reusing a spent, unregenerated 5% Ru/C catalyst, it was found that the activity of catalyst and the conversion of model substrate were strongly dependent on the amount of catalyst and the number of recycling, respectively. During the first reuse of this ruthenium catalyst, surprisingly, it showed high activity already at room temperature contrary to the fresh catalyst which worked at only 60?°C. This unexpected catalytic behaviour was studied by XRD and XPS methods which revealed the existence of a fine RuO2 layer on the surface of the catalytic metal in the fresh catalyst. Graphical Abstract: [Figure not available: see fulltext.].
Preparation and GC-MS-Identification of N-Methyl-Δ3-pyrroline
Mahboobi, Siavosh,Fischer, Erich Chr.,Eibler, Ernst,Wiegrebe, Wolfgang
, p. 423 - 424 (1988)
The preparation of N-methyl-Δ3-pyrroline by 1) reduction of N-methyl-pyrrole followed by gc-separation or by 2) condensation of cis-1,4-dichloro-2-butene with methylamine is described.The title compound is identified by GC-MS.
Electrochemical Activation of Diverse Conventional Photoredox Catalysts Induces Potent Photoreductant Activity**
Chernowsky, Colleen P.,Chmiel, Alyah F.,Wickens, Zachary K.
supporting information, p. 21418 - 21425 (2021/08/25)
Herein, we disclose that electrochemical stimulation induces new photocatalytic activity from a range of structurally diverse conventional photocatalysts. These studies uncover a new electron-primed photoredox catalyst capable of promoting the reductive cleavage of strong C(sp2)?N and C(sp2)?O bonds. We illustrate several examples of the synthetic utility of these deeply reducing but otherwise safe and mild catalytic conditions. Finally, we employ electrochemical current measurements to perform a reaction progress kinetic analysis. This technique reveals that the improved activity of this new system is a consequence of an enhanced catalyst stability profile.
A Lewis Base Nucleofugality Parameter, NFB, and Its Application in an Analysis of MIDA-Boronate Hydrolysis Kinetics
García-Domínguez, Andrés,Gonzalez, Jorge A.,Leach, Andrew G.,Lloyd-Jones, Guy C.,Nichol, Gary S.,Taylor, Nicholas P.
supporting information, (2022/01/04)
The kinetics of quinuclidine displacement of BH3 from a wide range of Lewis base borane adducts have been measured. Parameterization of these rates has enabled the development of a nucleofugality scale (NFB), shown to quantify and predict the leaving group ability of a range of other Lewis bases. Additivity observed across a number of series R′3-nRnX (X = P, N; R′ = aryl, alkyl) has allowed the formulation of related substituent parameters (nfPB, nfAB), providing a means of calculating NFB values for a range of Lewis bases that extends far beyond those experimentally derived. The utility of the nucleofugality parameter is explored by the correlation of the substituent parameter nfPB with the hydrolyses rates of a series of alkyl and aryl MIDA boronates under neutral conditions. This has allowed the identification of MIDA boronates with heteroatoms proximal to the reacting center, showing unusual kinetic lability or stability to hydrolysis.