Organic and Inorganic Fluorine Chemistry: Methods and Applications

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Organic and Inorganic Fluorine Chemistry: Methods and Applications
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Preface
Foreword
Contents
Part A: Introduction to fluorine chemistry
	1. Sources of fluorine in nature
		1.1 The fluorosphere
		1.2 Fluoride sources and elemental fluorine in minerals
		1.3 Natural organofluorine compounds
		1.4 Study questions
	2. Elemental fluorine
		2.1 Properties and general reactivity
		2.2 Polyfluoride anions
		2.3 Preparation of F2
		2.4 Working with elemental fluorine and fluorinated compounds
		2.5 Study questions
	3. Hydrogen fluoride
		3.1 Preparation, general properties and applications
		3.2 Structural properties
		3.3 Anhydrous and aqueous hydrogen fluoride
		3.4 Salts of hydrogen fluoride
		3.5 Naked fluoride and ligand properties
		3.6 Anhydrous hydrogen fluoride as reaction medium
		3.7 Study questions
	4. Preparation of fluorinated compounds
		4.1 Transformations with gaseous fluorinating agents
		4.2 Solid-state reactions and fluorinations in flux
		4.3 Fluorination in solution phase
		4.4 Study questions
	5. Common solid-state structures of inorganic fluorides
		5.1 Binary fluorides
		5.2 Ternary and quaternary fluorides
		5.3 Study questions
	6. Properties of fluorinated compounds
	7. Health and environmental aspects of fluorinated compounds
		7.1 Impact of fluorinated compounds on humans and animals
		7.2 Fluorinated compounds in the environment
		7.3 Perspectives in the use of fluorinated compounds
		7.4 Study questions
	8. 19F-NMR – an important analytical tool for fluorine chemists
		8.1 General aspects and reference substances
		8.2 Chemical shifts
		8.3 Coupling constants
		8.4 Study questions
Part B: Inorganic fluorine chemistry
	9. Main group element fluorides
		9.1 Group 1: Lithium, sodium, potassium, rubidium, cesium
			9.1.1 The alkali metal fluorides
			9.1.2 Study questions
		9.2 Group 2: Beryllium, magnesium, calcium, strontium, barium, radium
			9.2.1 Beryllium
			9.2.2 Magnesium, calcium, strontium, barium and radium
		9.3 Group 13: Boron, aluminium, gallium, indium, thallium
			9.3.1 Boron
				Subfluorides
				Boron trifluoride and its derivatives
			9.3.2 Aluminium, gallium, indium, thallium
				Monofluorides
				Trifluorides
			9.3.3 Study questions
		9.4 Group 14: Carbon, silicon, germanium, tin, lead
			9.4.1 Carbon
			9.4.2 Silicon, germanium, tin, lead
				Difluorides
				Tetrafluorides
			9.4.3 Study questions
		9.5 Group 15: Nitrogen, phosphorus, arsenic, antimony, bismuth
			9.5.1 Nitrogen
				NF3 and its derivatives
				Tetrafluorohydrazine and difluorodiazene
				Tetrafluoroammonium salts
				Fluoroazide
				Oxyfluorides of nitrogen
			9.5.2 Phosphorus, arsenic, antimony, bismuth
				Diphosphorus tetrafluoride
				Trifluorides
				Pentafluorides and their derivatives
			9.5.3 Study questions
		9.6 Group 16: Oxygen, sulphur, selenium, tellurium, polonium
			9.6.1 Oxygen
				Oxygen fluorides
				Inorganic hypofluorites
				Organic hypofluorites
			9.6.2 Sulphur, selenium, tellurium, polonium
				Low-valent fluorides
				Tetrafluorides and tetravalent oxyfluorides
				Hexafluorides and hexavalent oxyfluorides
				Sulphur-nitrogen-fluorine compounds
			9.6.3 Study questions
		9.7 Group 17: Chlorine, bromine, iodine
			9.7.1 Preparation of the halogen fluorides
			9.7.2 Structural properties of the halogen fluorides
			9.7.3 Stability of the halogen fluorides
			9.7.4 Reactivity of the halogen fluorides
			9.7.5 Fluorinated cations derived from the halogen fluorides
			9.7.6 Fluorohalogenate anions
			9.7.7 Halogen oxyfluorides
				Trivalent compounds
				Pentavalent compounds
				Heptavalent compounds
		9.8 Group 18: Krypton, xenon, radon
			9.8.1 Xenon
				Xenon difluoride
				Xenon tetrafluoride
				Xenon hexafluoride
				General conclusions on the reactivity of xenon fluorides
				Derivatives of the xenon fluorides
				Xenon oxyfluorides
			9.8.2 Krypton
			9.8.3 Radon
			9.8.4 Study questions
	10. Transition metal fluorides and rare earth metal fluorides
		10.1 Group 3: Scandium, yttrium, lanthanum, actinium
			10.1.1 Compounds and properties
				Low-valent fluorides
				Trifluorides
				Oxyfluorides
			10.1.2 Study question
		10.2 The lanthanides
			10.2.1 Compounds and properties
				Monofluorides
				Difluorides
				Trifluorides
				Tetrafluorides
			10.2.2 Study questions
		10.3 The actinides
			10.3.1 Compounds and properties
				Mono- and difluorides
				Trifluorides and trivalent oxyfluorides
				Tetrafluorides and tetravalent oxyfluorides
				Pentafluorides and pentavalent oxyfluorides
				Hexafluorides
			10.3.2 Study questions
		10.4 Group 4: Titanium, zirconium, hafnium
			10.4.1 Titanium
				Titanium trifluoride
				Titanium tetrafluoride
				Titanium oxydifluoride
			10.4.2 Zirconium and hafnium
				Low-valent fluorides
				Trifluorides
				Tetrafluorides
			10.4.3 Study questions
		10.5 Group 5: Vanadium, niobium, tantalum
			10.5.1 Vanadium
				Low-valent fluorides
				Vanadium trifluoride
				Vanadium tetrafluoride
				Vanadium pentafluoride
				Pentavalent vanadium oxyfluorides
			10.5.2 Niobium and tantalum
				Low-valent fluorides
				Trifluorides
				Tetrafluorides
				Pentafluorides
				Pentavalent oxyfluorides
			10.5.3 Study questions
		10.6 Group 6: Chromium, molybdenum, tungsten
			10.6.1 Chromium
				Chromium trifluoride
				Chromium tetrafluoride
				Chromium pentafluoride
				Chromium hexafluoride and hexavalent oxyfluorides of chromium
			10.6.2 Molybdenum and tungsten
				Low-valent fluorides
				Trifluorides
				Tetrafluorides
				Pentafluorides
				Hexafluorides
				Hexavalent oxyfluorides
			10.6.3 Study questions
		10.7 Group 7: Manganese, technetium, rhenium
			10.7.1 Manganese
				Low-valent manganese fluorides
				Manganese trifluoride
				Manganese tetrafluoride
				Manganese oxyfluorides
			10.7.2 Technetium and rhenium
				Low-valent fluorides
				Trifluorides
				Tetrafluorides
				Hexafluorides
				Hexavalent oxyfluorides
				Heptafluorides
				Heptavalent oxyfluorides
			10.7.3 Study questions
		10.8 Iron, cobalt, nickel
			10.8.1 Compounds and properties
				Monofluorides
				Difluorides
				Trifluorides
				Complexes derived from the trifluorides
				Tetrafluorides and fluorometallates(IV)
			10.8.2 Study questions
		10.9 The platinum metals: ruthenium, osmium, rhodium, iridium, platinum
			10.9.1 Compounds and properties
				Monofluorides
				Difluorides
				Trifluorides
				Tetrafluorides
				Hexafluorides
				Hexavalent oxyfluorides
				Heptavalent oxyfluorides
				Octavalent oxyfluorides
			10.9.2 Study questions
		10.10 Group 11: Copper, silver, gold
			10.10.1 Copper
				Copper monofluoride
				Copper difluoride
				Copper trifluoride and tetravalent compounds
			10.10.2 Silver
				Silver subfluoride
				Silver monofluoride
				Silver difluoride
				Silver trifluoride
			10.10.3 Gold
				Low-valent gold fluorides
				Gold trifluoride
				High-valent gold fluorides
			10.10.4 Study questions
		10.11 Group 12: Zinc, cadmium, mercury
			10.11.1 Zinc
			10.11.2 Cadmium
			10.11.3 Mercury
				Dimercury difluoride
				Mercury difluoride
			10.11.4 Zinc, cadmium and mercury in higher oxidation states
			10.11.5 Study questions
Part C: Organic fluorine chemistry
	11. Fluoroorganic compounds – unusual properties and versatile applications
		11.1 Physical properties of fluoroorganic compounds
			11.1.1 Boiling points and dipole moments
			11.1.2 Solvent properties
			11.1.3 Surface tension and surface energy
			11.1.5 Acidity and basicity
			11.1.4 Lipophilicity
			11.1.6 Study questions
		11.2 Chemical properties and stability of fluoroorganic compounds and reactive intermediates
			11.2.1 Fluorine at sp3-carbons
			11.2.2 Fluorine at sp2-and sp-carbons
			11.2.3 Fluorinated carbocations
			11.2.4 Fluorinated carbanions
			11.2.5 Fluorinated radicals
			11.2.6 Fluorinated carbenes
			11.2.7 Study questions
		11.3 Applications of organofluorine compounds
			11.3.1 Versatile uses of halo- and hydrofluorocarbons
			11.3.2 Fluoropolymers
			11.3.3 Fluorinated dyes
			11.3.4 Fluorinated liquid crystals
			11.3.5 Organic electronics
			11.3.6 Biologically active compounds
			11.3.7 Medicinal diagnostics
			11.3.8 Further medical applications
			11.3.9 Study questions
	12. General reaction types and reagents for the introduction of fluorin
		12.1 Direct fluorination and radical reactions
			12.1.1 Elemental fluorine and high-valent metal fluorides
			12.1.2 Radical fluorination using electrophilic fluorinating reagents
			12.1.3 Study questions
		12.2 Electrochemical fluorination
			12.2.1 Prerequisites
			12.2.2 Mechanistical aspects
		12.3 Nucleophilic fluorination
			12.3.1 HF and its complexes
			12.3.2 Ionic fluorides
				Metal fluorides
				Tetraalkylammonium fluorides
				Other salt-like sources of fluoride
			12.3.3 Molecular fluorides
				Inorganic main-group element fluorides
				α,α-Difluoroalkylamine reagents
			12.3.4 Enzymatic fluorination
			12.3.5 Study questions
		12.4 Electrophilic fluorination
			12.4.1 Fluoroxy compounds, perchloryl fluoride and xenon difluoride
			12.4.2 Fluoraza reagents
			12.4.3 Study questions
		12.5 Metal-mediated reactions, including photocatalysis
		12.6 Hydrodefluorination and defluorofunctionalization
	13. Fluorination of aliphatic substrates
		13.1 General trends in the synthesis of aliphatic organofluorine compounds
			13.1.1 The general fluorine effect
			13.1.2 The special fluorine effect
			13.1.3 Study questions
		13.2 Radical reactions and direct fluorination
			13.2.1 General remarks on direct fluorination techniques
			13.2.2 Direct fluorination techniques using elemental F2
			13.2.3 Fluorination using high-valent metal fluorides
			13.2.4 Selective radical fluorination with electrophilic fluorinating agents
				Techniques using catalytic and stoichiometric radical initiators
				Photocatalysis
			13.2.5 Study questions
		13.3 Electrochemical fluorination techniques
			13.3.1 Conditions and substrates
			13.3.2 Cyclization of carbonyl compounds
			13.3.3 Electrochemical fluorination of heteroatom-containing substrates
			13.3.4 Study questions
		13.4 Nucleophilic substitution
			13.4.1 Halogen exchange
				Halogen fluorides as fluorinating agents
				Fluoride salts, HF-reagents or antimony fluorides as fluorinating agents
			13.4.2 Deoxyfluorination of alcohols
				HF-reagents and other acidic fluoride sources
				Fluoroalkylamine reagents
				Sulphur(IV)-based deoxyfluorinating agents
				Fluorodehydroxylation of activated alcohol functions
			13.4.3 Cleavage of ethers and epoxides
			13.4.4 Deoxyfluorination of carbonyl compounds
			13.4.5 Deoxyfluorination of carboxylic acids and their derivatives
			13.4.6 Sulphur replacement
			13.4.7 Nitrogen replacement
			13.4.8 Hydrofluorination of unsaturated C-C bonds
			13.4.9 Halofluorination of unsaturated C-C bonds
			13.4.10 Fluorocarbene addition to unsaturated C-C bonds
			13.4.11 Halo- and hydrofluorination of highly fluorinated olefins
			13.4.12 Highly fluorinated olefins as building blocks
			13.4.13 Study questions
		13.5 Electrophilic fluorination
			13.5.1 Elemental fluorine as electrophilic fluorinating agent
			13.5.2 Electrophilic fluorination using fluoroxy compounds
			13.5.3 Electrophilic fluorination using perchloryl fluoride
			13.5.4 Fluoraza compounds as electrophilic fluorinating agents
			13.5.5 Asymmetric fluorination using fluoraza reagents
			13.5.6 Xenon difluoride
			13.5.7 Study questions
		13.6 Metal-mediated reactions, including photocatalysis
			13.6.1 C-H fluorination
				Directing-group approaches
				Enantioselective C-H fluorination of activated substrates
				Radical fluorination using electrophilic fluorinating agents
				Photocatalytic fluorination
				Radical fluorination in presence of directing groups
				Radical fluorination using nucleophilic fluorinating agents
			13.6.2 Fluorofunctionalization of olefins
			13.6.3 Allylic, benzylic and propargylic substrates with a leaving group
			13.6.4 Study questions
		13.7 Selected transformations of fluorinated compounds
			13.7.1 Reductive transformations
			13.7.2 Oxidative transformations
			13.7.3 Halogenations
			13.7.4 Study questions
	14. Fluorination of (hetero-) aromatic compounds
		14.1 Electrochemical fluorination techniques
		14.2 Nucleophilic substitution
			14.2.1 Halogen exchange
			14.2.2 Fluorodenitration and fluorodesulphonylation
			14.2.3 Preparation of pentafluorophenyl compounds
			14.2.4 Deoxyfluorination
				The fluoroformate process
				Direct deoxyfluorination of phenols
			14.2.5 Nitrogen replacement
				Decompositon of aryl diazonium salts
				Decomposition of aryl triazenes
				Fluorodequaternization
			14.2.6 Miscellaneous transformations
			14.2.7 Study questions
		14.3 Electrophilic fluorination
			14.3.1 Elemental fluorine as electrophilic fluorinating agent
			14.3.2 Electrophilic fluorination using fluorooxy reagents
			14.3.3 Xenon difluoride as a source of electrophilic fluorine
			14.3.4 Electrophilic fluorination using fluoraza reagents
			14.3.5 Study questions
		14.4 Reductive aromatization
		14.5 Metal-mediated reactions
			14.5.1 Reactions mediated by palladium
				General aspects about Pd-mediated fluorination reactions
				Pd(II)-mediated C-H fluorination in presence of directing groups
				Pd(0)-mediated fluorination
				Miscellaneous variants of Pd-catalyzed fluorination
			14.5.2 Reactions mediated by copper
			14.5.3 Reactions mediated by silver
			14.5.4 Reactions mediated by bismuth
			14.5.5 Study questions
		14.6 C-F bond activation
			14.6.1 Replacement of fluoride substituents in highly fluorinated aromat
			14.6.2 Fluoride replacement by main-group organometallics
			14.6.3 C-F bond activation by transition metal complexes
				Hydrodefluorination
				Formation of carbon-heteroatom bonds
			14.6.4 Study questions
	15. Preparation of fluorinated olefins and acetylenes
		15.1 Elimination reactions
			15.1.1 Elimination of HX
			15.1.2 Elimination of HF
			15.1.3 Elimination of halogens
			15.1.4 Elimination of other small molecules
			15.1.5 Pyrolysis of fluorinated compounds
			15.1.6 Preparation of fluorine-containing polyenes
			15.1.7 Fluorinated acetylenes
		15.2 Nucleophilic substitution
			15.2.1 Nucleophilic attack on CF3-substituted vinyl compounds
			15.2.2 Addition-elimination reactions of fluorinated olefins
			15.2.3 Miscellaneous reactions toward fluoroolefins
			15.2.4 Study questions
		15.3 Electrophilic fluorination
			15.3.1 Fluorination of vinyl lithium intermediates
			15.3.2 Electrophilic fluorination of substituted cyclopropanes and allenes
			15.3.3 Miscellaneous transformations
			15.3.4 Study questions
		15.4 Transition metal-free introduction of fluorinated fragments
			15.4.1 Wittig olefination
			15.4.2 Julia- and Julia–Kocienski-type olefinations
			15.4.3 Horner–Wadsworth–Emmons olefination
		15.5 Olefin metathesis
			15.5.1 General aspects about metathesis reactions of fluorinated olefins
			15.5.2 Preparation of fluorinated carbocycles
			15.5.3 Preparation of fluorinated heterocycles
			15.5.4 Study questions
		15.6 Metal-mediated reactions, including photocatalysis
			15.6.1 Hydrofluorination of alkynes
			15.6.2 Directed C-H fluorination of vinylic substrates
			15.6.3 Fluorination of vinyl boronic acids and vinyl stannanes
			15.6.4 Miscellaneous transformations toward monofluoroolefins
			15.6.5 Preparation of geminal difluoroolefins from CF3-substituted alkenes
			15.6.6 Preparation of geminal difluoroolefins from diazocompounds
			15.6.7 Study questions
		15.7 Selective hydrodefluorination of highly fluorinated olefins
	16. Solutions to study questions
Bibliography
Index