1128-86-5Relevant articles and documents
Reactions of 1-[benzoyl(2-hetaroyl)]-2,2-dimethyhydrazines with 1,3-dibromopropyne, 2-propynyl bromide, and allyl bromide
Nakhmanovich,Karnaukhova,Larina,Ushakov,Lopyrev
, p. 1561 - 1564 (2003)
Reactions of 1-[benzoyl(2-hetaroyl)]-2,2-dimethyhydrazines with 1,3-dibromopropyne in MeOH at 50°C afforded 2-phenyl(heteryl)-6- bromomethylidene-4,4-dimethyl-5H-1,3,4-oxadiazinium bromides. Reactions of 1-[benzoyl(2-hetaroyl)]-2,2-dimethyhydrazines with
Studies of the structure, amidicity, and reactivity of n-chlorohydroxamic esters and n-chloro-β,β-dialkylhydrazides: Anomeric amides with low resonance energies
Glover, Stephen A.,Rosser, Adam A.,Spence, Robert M.
, p. 1344 - 1352 (2014)
Density functional calculations have been carried out to determine the properties of the title anomeric amides. At the B3LYP/6-31G(d) level, N-chloro-N-methoxyacetamide 8a is computed to be strongly pyramidal at nitrogen with a long amide bond that is unt
Synthesis of multi-substituted 1,2,4-triazoles utilising the ambiphilic reactivity of hydrazones
Matsuzaki, Haruo,Takeda, Norihiko,Yasui, Motohiro,Okazaki, Mayuko,Suzuki, Seishin,Ueda, Masafumi
supporting information, p. 12187 - 12190 (2021/11/30)
The synthesis of N-alkyl-1H-1,2,4-triazoles from N,N-dialkylhydrazones and nitriles via formal [3+2] cycloaddition including the C-chlorination/nucleophilic addition/cyclisation/dealkylation sequence was developed. This sequential reaction utilising the in situ generation of hydrazonoyl chloride based on the ambiphilic reactivity of hydrazones afforded a variety of multi-substituted N-alkyl-triazoles in high yields. The synthetic utility of multi-substituted triazoles was also demonstrated by further transformations.
Phosphine-free ruthenium complex-catalyzed synthesis of mono- Or dialkylated acyl hydrazides via the borrowing hydrogen strategy
Joly, Nicolas,Bettoni, Léo,Gaillard, Sylvain,Poater, Albert,Renaud, Jean-Luc
, p. 6813 - 6825 (2021/05/29)
Herein, we report a diaminocyclopentadienone ruthenium tricarbonyl complex-catalyzed synthesis of mono- or dialkylated acyl hydrazide compounds using the borrowing hydrogen strategy in the presence of various substituted primary and secondary alcohols as alkylating reagents. Deuterium labeling experiments confirm that the alcohols were the hydride source in this cascade process. Density functional theory (DFT) calculations unveil the origin and the threshold between the mono- and dialkylation.
Direct Catalytic Symmetrical, Unsymmetrical N,N-Dialkylation and Cyclization of Acylhydrazides Using Alcohols
Thiyagarajan, Subramanian,Gunanathan, Chidambaram
supporting information, p. 6617 - 6622 (2020/09/02)
Herein, direct N,N-dialkylation of acylhydrazides using alcohols is reported. This catalytic protocol provides one-pot synthesis of both symmetrical and unsymmetrical N,N-disubstituted acylhydrazides using an assortment of primary and secondary alcohols w