105-04-4Relevant articles and documents
Lithiation of TMEDA and its higher homologous TEEDA: Understanding observed α- and β-deprotonation
Gessner, Viktoria H.,Strohmann, Carsten
, p. 14412 - 14413 (2008)
TMEDA and its ethyl-substituted analogue, TEEDA, show a different behavior toward the deprotonation with lithiumalkyls. While TMEDA mainly undergoes α-lithiation of its methyl group, TEEDA shows selective β-lithiation with following elimination of ethene. The crystal structure of the monomeric intermediate of this β-lithiation, tBuLi·TEEDA, and theoretical studies indicate kinetic favoritism for the β-lithiation. Copyright
Multi-ammonia dithio-formic acid sulfite derivative and preparation method and application thereof
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Paragraph 0119-0126, (2017/07/07)
The invention provides a multi-ammonia dithio-formic acid sulfite derivative which has a structure as shown in a formula (I). The invention further provides a method for preparing the derivative and application of the derivative as a reducing agent - chain transfer agent to the aspect of free radical polymerization reaction. A preparation method is simple, reaction conditions are mild, and the multi-ammonia dithio-formic acid sulfite derivative has very good application effects and application values in the free radical polymerization reaction triggered in an oxidation-reduction system.
METHOD FOR PRODUCING N-MONOALKYL-SUBSTITUTED ALKYLENE AMINE
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Page/Page column 6; 8, (2010/02/11)
PROBLEM TO BE SOLVED: To provide a method for producing an N-monoalkyl-substituted alkylene amine especially useful for uses such as medicine intermediates, agrochemical intermediates, urethane resin-foaming catalysts, surfactants and the like among alkyl-substituted alkylene amine compounds from an alcohol and an alkylene amine as raw materials. SOLUTION: This method for producing the N-monoalkyl-substituted alkylene amine is characterized by reacting the alkylene amine with a ≥2C alkyl alcohol in the presence of a copper-containing oxide catalyst system. The N-monoalkyl-substituted alkylenamine is produced in high conversion and in N-monoalkylation selectivity.
2-aminopyridine derivatives and combinatorial libraries thereof
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, (2008/06/13)
The present invention relates to novel 2-aminopyridine derivative compounds of the following formula: wherein R1to R5have the meanings provided herein. The invention further relates to combinatorial libraries containing two or more such compounds, as well as methods of preparing 2-aminopyridine derivative compounds.
Anodic Oxidation of Amines. VIII. Oxidation of Ethane-1,2-diamines
Masui, Masaichiro,Kamada, Yoshiyuki,Nishida, Hideko,Ozaki, Shigeko
, p. 940 - 944 (2007/10/02)
Anodic oxidation of ethylenediamines (ethane-1,2-diamines) was investigated by cyclic voltammetry and controlled potential electrolysis in aqueous carbonate buffer (pH 10) at a glassy-carbon electrode.The first wave of the diamines is developed at a lower potential than that of the corresponding β-alkanolamines.Among the oxidative bond cleavages, the relative amount of (α)C-(β)C bond fission is larger than that observed for β-alkanolamines and oxidative deamination is only observed after the (α)C-(β)C bond fission.A scheme for the reaction processes is proposed.Keywords: ethane-1,2-diamine; anodic oxidation; (α)C-(β)C bond fission; C-N bond fission; carbonate buffer; glassy-carbon electrode.
