Amide Bond Activation

The amide bond represents a privileged motif in chemistry. The recent years have witnessed an explosion of interest in the development of new chemical transformations of amides. These developments cover an impressive range of catalytic N-C bond activation in electrophilic, Lewis acid, radical, and n...

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Päätekijä:	Szostak, Michal (auth)
Aineistotyyppi:	Kirjan osa
Julkaistu:	MDPI - Multidisciplinary Digital Publishing Institute 2019
Aiheet:	N-heterocyclic carbene non planar amide ruthenium (Ru) physical organic chemistry gemcitabine prodrug pyramidal amides bridged sultams catalysis dipeptides N-(1-naphthyl)acetamide C-N ? bond cleavage steric effects peptide bond cleavage transition-metal-free palladium N-heterocyclic carbenes (NHCs) addition reaction C-O activation rhodium metal complexes carbanions thioamidation amide bond intramolecular catalysis antiviral activity additivity principle pre-catalysts C-N bond cleavage bridged lactams C-H acidity arynes twisted amides organic synthesis amination Suzuki-Miyaura tert-butyl cyclopentadienyl complexes C-S formation enzymes DFT study sulfonamide bond N HERON reaction primaquine entropy amide activation amidation synthesis amide hydrolysis carbonylicity amide bond activation amide bond resonance aminosulfonylation molecular dynamics model compound in situ amide homogeneous catalysis heterocycles anomeric effect multi-component coupling reaction kinetic excited state C-H bond cleavage palladium catalysis amides thiourea formylation alkynes cis/trans isomerization amide C-N bond activation intein C-H functionalization succindiamide amide bonds crown ether aminoacylation directing groups cytostatic activity reaction thermodynamics acyl transfer transition metals N-dimethylformamide DMAc acylative cross-coupling C-H/C-N activation nickel catalysis antibacterial screening sodium aryl thioamides Winkler-Dunitz parameters catalyst N-dimethylacetamide base-catalyed hydrolysis nitrogen heterocycles cross-coupling insertion amidicity nitro-aci tautomerism activation carbonylation transamidation amine distortion Pd-catalysis rotational barrier energy hypersensitivity N-C activation metabolic stability [2+2+2] annulation twisted amide protease cyanation amide resonance trialkylborane catalysts biofilm eradication pharmacokinetics pancreatic cancer cells DMF aryl esters Michael acceptor fumardiamide water solvation ester bond activation cyclization nuclear magnetic resonance secondary amides reaction mechanism density functional theory density-functional theory amino acid transporters
Linkit:	Get Fullteks DOAB: description of the publication
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LEADER	05802naaaa2201825uu 4500
001	doab_20_500_12854_40763
005	20210211
020			\|a books978-3-03921-204-0
020			\|a 9783039212033
020			\|a 9783039212040
024	7		\|a 10.3390/books978-3-03921-204-0 \|c doi
041	0		\|a English
042			\|a dc
100	1		\|a Szostak, Michal \|4 auth
245	1	0	\|a Amide Bond Activation
260			\|b MDPI - Multidisciplinary Digital Publishing Institute \|c 2019
300			\|a 1 electronic resource (466 p.)
506	0		\|a Open Access \|2 star \|f Unrestricted online access
520			\|a The amide bond represents a privileged motif in chemistry. The recent years have witnessed an explosion of interest in the development of new chemical transformations of amides. These developments cover an impressive range of catalytic N-C bond activation in electrophilic, Lewis acid, radical, and nucleophilic reaction pathways, among other transformations. Equally relevant are structural and theoretical studies that provide the basis for chemoselective manipulation of amidic resonance. This monograph on amide bonds offers a broad survey of recent advances in activation of amides and addresses various approaches in the field.
540			\|a Creative Commons \|f https://creativecommons.org/licenses/by-nc-nd/4.0/ \|2 cc \|4 https://creativecommons.org/licenses/by-nc-nd/4.0/
546			\|a English
653			\|a N-heterocyclic carbene
653			\|a non planar amide
653			\|a ruthenium (Ru)
653			\|a physical organic chemistry
653			\|a gemcitabine prodrug
653			\|a pyramidal amides
653			\|a bridged sultams
653			\|a catalysis
653			\|a dipeptides
653			\|a N-(1-naphthyl)acetamide
653			\|a C-N ? bond cleavage
653			\|a steric effects
653			\|a peptide bond cleavage
653			\|a transition-metal-free
653			\|a palladium
653			\|a N-heterocyclic carbenes (NHCs)
653			\|a addition reaction
653			\|a C-O activation
653			\|a rhodium
653			\|a metal complexes
653			\|a carbanions
653			\|a thioamidation
653			\|a amide bond
653			\|a intramolecular catalysis
653			\|a antiviral activity
653			\|a additivity principle
653			\|a pre-catalysts
653			\|a C-N bond cleavage
653			\|a bridged lactams
653			\|a C-H acidity
653			\|a arynes
653			\|a twisted amides
653			\|a organic synthesis
653			\|a amination
653			\|a Suzuki-Miyaura
653			\|a tert-butyl
653			\|a cyclopentadienyl complexes
653			\|a C-S formation
653			\|a enzymes
653			\|a DFT study
653			\|a sulfonamide bond
653			\|a N
653			\|a HERON reaction
653			\|a primaquine
653			\|a entropy
653			\|a amide activation
653			\|a amidation
653			\|a synthesis
653			\|a amide hydrolysis
653			\|a carbonylicity
653			\|a amide bond activation
653			\|a amide bond resonance
653			\|a aminosulfonylation
653			\|a molecular dynamics
653			\|a model compound
653			\|a in situ
653			\|a amide
653			\|a homogeneous catalysis
653			\|a heterocycles
653			\|a anomeric effect
653			\|a multi-component coupling reaction
653			\|a kinetic
653			\|a excited state
653			\|a C-H bond cleavage
653			\|a palladium catalysis
653			\|a amides
653			\|a thiourea
653			\|a formylation
653			\|a alkynes
653			\|a cis/trans isomerization
653			\|a amide C-N bond activation
653			\|a intein
653			\|a C-H functionalization
653			\|a succindiamide
653			\|a amide bonds
653			\|a crown ether
653			\|a aminoacylation
653			\|a directing groups
653			\|a cytostatic activity
653			\|a reaction thermodynamics
653			\|a acyl transfer
653			\|a transition metals
653			\|a N-dimethylformamide
653			\|a DMAc
653			\|a acylative cross-coupling
653			\|a C-H/C-N activation
653			\|a nickel catalysis
653			\|a antibacterial screening
653			\|a sodium
653			\|a aryl thioamides
653			\|a Winkler-Dunitz parameters
653			\|a catalyst
653			\|a N-dimethylacetamide
653			\|a base-catalyed hydrolysis
653			\|a nitrogen heterocycles
653			\|a cross-coupling
653			\|a insertion
653			\|a amidicity
653			\|a nitro-aci tautomerism
653			\|a activation
653			\|a carbonylation
653			\|a transamidation
653			\|a amine
653			\|a distortion
653			\|a Pd-catalysis
653			\|a rotational barrier energy
653			\|a hypersensitivity
653			\|a N-C activation
653			\|a metabolic stability
653			\|a [2+2+2] annulation
653			\|a twisted amide
653			\|a protease
653			\|a cyanation
653			\|a amide resonance
653			\|a trialkylborane
653			\|a catalysts
653			\|a biofilm eradication
653			\|a pharmacokinetics
653			\|a pancreatic cancer cells
653			\|a DMF
653			\|a aryl esters
653			\|a Michael acceptor
653			\|a fumardiamide
653			\|a water solvation
653			\|a ester bond activation
653			\|a cyclization
653			\|a nuclear magnetic resonance
653			\|a secondary amides
653			\|a reaction mechanism
653			\|a density functional theory
653			\|a density-functional theory
653			\|a amino acid transporters
856	4	0	\|a www.oapen.org \|u https://mdpi.com/books/pdfview/book/1420 \|7 0 \|z Get Fullteks
856	4	0	\|a www.oapen.org \|u https://directory.doabooks.org/handle/20.500.12854/40763 \|7 0 \|z DOAB: description of the publication

Amide Bond Activation

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