Heterogeneous Catalysis in Sustainable Synthesis (Advances in Green and Sustainable Chemistry)

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Front-Matter_2022_Heterogeneous-Catalysis-in-Sustainable-Synthesis
	Front Matter
Copyright_2022_Heterogeneous-Catalysis-in-Sustainable-Synthesis
	Copyright
Contents
Preface_2022_Heterogeneous-Catalysis-in-Sustainable-Synthesis
	Preface
Chapter-1---Heterogeneous-catalysis-for-organic_2022_Heterogeneous-Catalysis
	Heterogeneous catalysis for organic synthesis: Historical background and fundamentals
		Introduction and historical background
		Catalysis
			Fundamentals and basic definitions
				Catalyst and catalytic cycle
				Activation energy
				Other definitions
			Heterogeneous catalysis
				Catalytic surfaces
				Physical and chemical adsorption
				The active site of solid catalysts
				Anchoring effects
				Experimental variables
				Catalytic reactors
		Conclusions and outlook
		References
Chapter-2---Solid-catalysts-for-environm_2022_Heterogeneous-Catalysis-in-Sus
	Solid catalysts for environmentally benign synthesis
		Introduction
		Metal catalysts
			Unsupported metals
				Bulk or massive metals
				Metal “blacks”
				Skeletal metals
				Noble metal oxides and hydroxides
				Amorphous metal alloys
			Supported metal catalyst
				Catalyst supports
					SiO2
					Al2O3
					Other metal oxides and metal carbonates
					Magnetic catalyst supports
					Carbon-based supports
					Polymeric materials
					Biomass-based materials
					Self-supported catalysts
			Heterogenized metal complexes and organocatalysts
			Metal nanoparticle-based catalysts
		Nonmetallic catalysts
			Metal oxides
			Heteropoly acids
			Clays
			Zeolites
			Ion exchange resins
			Metal-organic frameworks
			Other nonmetallic catalytic materials
				Molecular sieves, pillared layer solids, and other mesoporous solids
				Composites and related materials
		Conclusions and outlook
		References
Chapter-3---Application-of-heterogeneous-catalysis_2022_Heterogeneous-Cataly
	Application of heterogeneous catalysis in the development of environmentally benign synthetic processes
		References
Chapter-3-1---Hydrogenatio_2022_Heterogeneous-Catalysis-in-Sustainable-Synth
	Hydrogenation
		Introduction
		Carbon-carbon multiple bond hydrogenations: Alkenes, alkynes, dienes
		Hydrogenation of aromatic and heteroaromatic compounds
		Reduction of carbonyl compounds by heterogeneous catalytic hydrogenation: Aldehydes, ketones, and carboxylic acid d ...
		Hydrogenation of nitrogen-containing groups: NO, NN, CN, and CN groups
			Hydrogenation of the nitro group
			Hydrogenation of nitriles
			Hydrogenation of imines
			Hydrogenation of azides
		Chemo- and regioselective hydrogenation of compounds with multiple hydrogenation sensitive groups
			Selective CC bond hydrogenation of α,β-unsaturated carbonyl compounds
			Selective CO reduction of α,β-unsaturated carbonyl compounds
			Complete hydrogenation of multiple functional groups using the same catalytic system
		Heterogeneous catalytic hydrogenations by nonconventional activation methods
			Microwave-assisted hydrogenations
			Ultrasound-assisted hydrogenations
		Conclusions and outlook
		References
Chapter-3-10---Asymmetric-synthesis-by_2022_Heterogeneous-Catalysis-in-Susta
	Asymmetric synthesis by solid catalysts
		Introduction
		Oxidation reactions
			Epoxidation
			Dihydroxylation
			Other oxidations
		Hydrogenation
			Reduction of carbonyl compounds
				Reduction of mono-carbonyl compounds
				Reduction of 1,2-dicarbonyl compounds
				Reduction of 1,3-dicarbonyl compounds
				Reductive alkylation
			Reduction of CC double bonds
		Aldol-reaction and related chemistry
			Aldol reactions
			Michael additions
			Henry reactions
		Multicomponent and various other reactions
			Multicomponent reactions
			Cascade and tandem reactions
			Other reactions
		Conclusions and outlook
		References
Chapter-3-2---Heterogeneous-catalytic-hydro_2022_Heterogeneous-Catalysis-in-
	Heterogeneous catalytic hydrogenolysis of organic compounds
		Introduction
		CC bonds
		CO bonds
		CN bonds
		C-halogen bonds—Dehalogenation
		NN and NO bonds
		CS bonds
		Hydrogenolysis of C-other elements (Si, metals) bonds
		Hydrogenolysis of biomass-related compounds
			Hydrogenolysis of biomass-derived oxygen-containing heterocycles
			Hydrogenolysis of biomass-derived other oxygen-containing compounds
		Conclusions and outlook
		References
Chapter-3-3---Heterogeneous-catalyt_2022_Heterogeneous-Catalysis-in-Sustaina
	Heterogeneous catalytic oxidations
		Introduction
		Epoxidation reactions
		Dihydroxylation reactions
			Dihydroxylations with osmium
			Dihydroxylations with metals other than osmium
		Wacker-type oxidation reactions
		Oxidative cleavage of hydrocarbons
			Cleavage to generate aldehydes and ketones
			Cleavage to generate carboxylic acids and esters
			Other oxidative cleavage reactions
		Oxidation of CO and CN bonds
			Oxidation of CO bonds
			Oxidation of CN bonds
		Dehydrogenation and aromatization of CC and CX bonds
		Conclusions and outlook
		References
Chapter-3-4---Metathesis-by-heterogen_2022_Heterogeneous-Catalysis-in-Sustai
	Metathesis by heterogeneous catalysts
		Introduction
		Cross-metathesis
		Ring-closing metathesis
		Ring-opening metathesis
		Alkyne metathesis
		Heterogeneous catalytic asymmetric metathesis
		Metathesis applied to bioderived alkenes
		Conclusions and outlook
		References
Chapter-3-5---Friedel-Crafts-and-related-re_2022_Heterogeneous-Catalysis-in-
	Friedel-Crafts and related reactions catalyzed by solid acids
		Introduction
		Alkylation, hydroxyalkylation
			Alkylations with hydrocarbons
			Alkylations with alcohols, ethers, aldehydes, and ketones
			Alkylations with alkyl halides
			Hydroxyalkylations
			Intramolecular transalkylations—Rearrangements
		Acylation
			Acylations with carboxylic acids
			Acylations with activated carboxylic acid derivatives
			Intramolecular transacylations—Rearrangements
		Friedel-Crafts cycliacyalkylations
		Halogenation
		Nitration
		Sulfonation
		Conclusions and outlook
		References
Chapter-3-6---Cross-coupling-reactions-for-_2022_Heterogeneous-Catalysis-in-
	Cross-coupling reactions for environmentally benign synthesis
		Introduction
		The Heck coupling
			Heck reactions using a heterogeneous catalyst in solution
			Solvent-free Heck reactions
			Heck reactions without palladium
		The Suzuki coupling
			Palladium-catalyzed heterogeneous Suzuki coupling reactions
			Palladium-free heterogeneous catalytic Suzuki coupling reactions
		The Hiyama coupling
		The Negishi coupling
		The Kumada coupling
		The Sonogashira coupling
		The Tsuji-Trost allylation
		Coupling reactions not involving a C  C bond formation
			C  N bond-forming reactions
			C  O bond-forming reactions
			C  S bond-forming reactions
		Conclusions and outlook
		References
Chapter-3-7---Multicomponent-re_2022_Heterogeneous-Catalysis-in-Sustainable-
	Multicomponent reactions
		Introduction
		Carbonyl-based multicomponent reactions
			Formation of 6-membered rings with multicomponent reactions
			Formation of 5-membered rings with multicomponent reactions
			Formation of aliphatic bonds
		Isocyanide-based reactions
			Isocyanide-based MCRs for the preparation of 5-membered rings
			Isocyanide-based MCRs for the preparation of 5- and 6-membered heterocycles
			Aliphatic bond formation
		Conclusions and outlook
		References
Chapter-3-8---Ring-transformations-by-he_2022_Heterogeneous-Catalysis-in-Sus
	Ring transformations by heterogeneous catalysis
		Introduction
		Cyclization
			Intermolecular cyclization reactions
				Diels-Alder and hetero-Diels-Alder reactions
				Heterogeneous catalytic synthesis of six-membered rings
					Pyrazines and piperazines
					Pyridines
					Tetrahydropyranols
				Heterogeneous catalytic synthesis of five-membered rings
					Pyrroles
					Furans
					The Huisgen 1,3-dipolar cycloaddition
					Application of phenylenediamines and/or diazotization
					Oxazolidinones/oxindoles
					Pyrazoles
			Intramolecular cyclization reactions
				Heterogeneous catalytic synthesis of five-membered rings
					The Nazarov cyclization
					Tetrahydrofurans
				Heterogeneous catalytic synthesis of six-membered rings
					Isopulegol
					Ionones
					Terpenoids
					Quinolines/isoquinolines
		Ring opening reactions
			Ring opening of small heterocycles
				Ring opening of epoxides
					Synthesis of β-substituted alcohols
					Synthesis of carbonyl compounds
					Synthesis of cyclic carbonates
				Ring opening of aziridines
			Ring opening polymerization
			Other types of ring opening reactions
		Conclusions and outlook
		References
Chapter-3-9---Heterogeneous-catalytic-rearra_2022_Heterogeneous-Catalysis-in
	Heterogeneous catalytic rearrangements and other transformations
		Rearrangements
			Beckmann rearrangement
			Fries rearrangement
			Epoxide rearrangements
			Ferrier rearrangement
			Johnson-Claisen rearrangement
			The ortho-Claisen-rearrangement
			Benzylimine-benzaldimine rearrangement
			Pinacol rearrangement
			Baeyer-Villiger oxidation
		Aldol and related reactions
			The aldol reaction
			Mukaiyama reaction
		Condensations
			Schiff-base formation
			Knoevenagel condensation
			Pechmann condensation
			Aldol condensation
		Hydrolysis
			Hydrolysis of cellulose
		Introduction and removal of protecting groups
		Hydroformylations
		Conclusions and outlook
		References
Index_2022_Heterogeneous-Catalysis-in-Sustainable-Synthesis
	Index
		A
		B
		C
		D
		E
		F
		G
		H
		I
		J
		K
		L
		M
		N
		O
		P
		Q
		R
		S
		T
		U
		V
		W
		X
		Z
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