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This book presents these important facts: a) The mechanism of anionic polymerization, a more than 50-year challenge in polymer chemistry, has now become better understood; b) Precise synthesis of many polymers with novel architectures (triblock, multi-block, graft, exact graft, comb, cyclic, many armed stars with multi-components, dendrimer-like hyper-branched, and their structural mixed (co)polymers, etc.) have been advanced significantly; c) Based on such polymers, new morphological and self-organizing nano-objects and supramolecular assemblies have been created and widely studied and are considered nanodevices in the fields of nanoscience and technology; d) New high-tech and industrial applications for polymeric materials synthesized by anionic polymerization have been proposed. These remarkable developments have taken place in the last 15 years. Anionic polymerization continues to be the only truly living polymerization system (100 % termination free under appropriate conditions) and consequently the only one with unique capabilities in the synthesis of well-defined (i.e., precisely controlled molecular weight, nearly mono-disperse molecular weight distribution, structural and compositional homogeneity) complex macromolecular architectures. This book, with contributions from the world’s leading specialists, will be useful for all researchers, including students, working in universities, in research organizations, and in industry.
Organic Chemistry --- Chemistry --- Physical Sciences & Mathematics --- Addition polymerization. --- Carbanions. --- Anionic polymerization --- Cationic polymerization --- Chain addition polymerization --- Free-radical polymerization --- Ionic polymerization --- Chemistry. --- Physical chemistry. --- Polymers. --- Nanotechnology. --- Polymer Sciences. --- Physical Chemistry. --- Ions --- Polymerization --- Chemistry, Physical organic. --- Chemistry, Physical organic --- Chemistry, Organic --- Chemistry, Physical and theoretical --- Molecular technology --- Nanoscale technology --- High technology --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Polymers . --- Chemistry, Theoretical --- Physical chemistry --- Theoretical chemistry
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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.
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
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