Onium Ions,9780471148777

Onium Ions

by ; ; ;
Edition: 1st
ISBN13: 9780471148777
ISBN10: 0471148776
Format: Hardcover
Pub. Date: 1998-08-11
Publisher(s): Wiley-Interscience
List Price: $303.94

Buy New

Usually Ships in 3-4 Business Days
$303.64
Add to Cart

Rent Textbook

Select for Price
Add to Cart
There was a problem. Please try again later.

Used Textbook

We're Sorry
Sold Out

eTextbook

We're Sorry
Not Available

Buy from our Marketplace starting at $252.34

How Marketplace Works:

  • This item is offered by an independent seller and not shipped from our warehouse
  • Item details like edition and cover design may differ from our description; see seller's comments before ordering.
  • Sellers much confirm and ship within two business days; otherwise, the order will be cancelled and refunded.
  • Marketplace purchases cannot be returned to eCampus.com. Contact the seller directly for inquiries; if no response within two days, contact customer service.
  • Additional shipping costs apply to Marketplace purchases. Review shipping costs at checkout.

Summary

Comprehensive and up-to-date coverage of onium ions-an indispensable reference for academic and industrial chemists In Onium Ions, Nobel Prize-winning chemist George Olah joins forces with coauthors Kenneth Laali, Qi Wang, and G. K. Surya Prakash to offer an in-depth look at the chemistry and reactions of these important electron-deficient compounds. While other texts have covered various individual types of onium ions, this work addresses the structure and chemistry of numerous different classes of onium ions. Contents include: * Discussions of well-established classes of onium ions, such as azonium, oxonium, sulfonium, selenonium, telluronium, and phosphonium ions. * Coverage of more recent types, from siliconium, halonium, and carbonium to carboxonium, carbosulfonium, and carbazonium ions. * Clear explanations of definition, classification, preparation, and chemistry of each major group of onium ions. * An exploration of superelectrophilic activation of onium ions through contact with superacid media. Enriched with numerous illustrations and a full listing of references for each chapter, Onium Ions should be a staple text in the professional chemist's library.

Author Biography

GEORGE A. OLAH, PhD, was awarded the 1994 Nobel Prize in Chemistry for his work on carbocation chemistry. Professor Olah, holder of the Loker Chair in Organic Chemistry, also is Director of the Loker Hydrocarbon Research Institute at the University of Southern California.<br> <br> KENNETH K. LAALI, PhD, is Professor of Chemistry at Kent State University in Ohio. His research interests are in onium ions and carbocation chemistry. QI WANG, PhD, is Research Chemist at the Occidental Chemical Corporation in Buffalo, New York. His research interests are in superacid and Friedel-Crafts chemistry.<br> <br> SURYA PRAKASH, PhD, is Professor of Chemistry at the University of Southern California, and holds the Olah Chair in Hydrocarbon Chemistry at the Loker Hydrocarbon Research Institute. His research interests are in hydrocarbon, carbocation, and synthetic organic chemistry.

Table of Contents

Preface xv
1 Introduction
1(5)
1.1 Introduction and General Aspects
1(3)
References
4(2)
2 Azonium Ions
6(90)
2.1 Ammonium Ions
6(14)
2.1.1 Alkyl(aryl)ammonium Cations
6(5)
2.1.2 Nitrogen NMR Studies of Ammonium Cations
11(1)
2.1.3 Haloammonium Cations
11(1)
2.1.3.1 Perfluroammonium Cation, NF(+)(4)
11(1)
2.1.3.2 N,N-Difluoroammonium, NH(2)F(+)(2) and the Elusive Trifluoroammonium, NHF(+)(3) Cation
12(1)
2.1.3.3 N-Monoflouroammonium Cations, NFH(+)(3) and MeNH(2)F(+)
12(1)
2.1.3.4 N-Chloro-N-methylammonium Salts
13(1)
2.1.3.5 Fluoromethylammonium Cations
14(1)
2.1.3.6 Multinuclear NMR Studies of Fluoro-and Fluoromethylammonium Cations
14(2)
2.1.4 Nitrosoammonium Cations (N-Protonated Nitrosamines)
16(1)
2.1.5 Oxoammonium Cations
16(1)
2.1.6 N-Acylammonium Salts
17(1)
2.1.7 Ammonium Cations as Precursors to Hypervalent N(V) Compounds
17(2)
2.1.8 Mass Spectrometric Studies of Ammonium Ions and Their Gas-Phase Host-Guest Chemistry
19(1)
2.2 Nitronium and Nitrosonium Ions
20(26)
2.2.1 Nitronium Ion, NO(+)(2)
20(6)
2.2.2 Dihalonitronium Ions, X(2)NO(+)
26(1)
2.2.2.1 Dichloronitronium Ion, CI(2)NO(+)
26(1)
2.2.2.2 Diflouronitronium Ion, F(2)NO(+)
27(2)
2.2.2.3 Chlorofluoronitronium Ion, ON(CL)F(+)
29(1)
2.2.2.4 Trifluoromethyl(fluoro)nitronium Ion, ONCF(3)(F) and Trifluoromethyl(methyl)nitronium Ion, ONCF(3)(Me)(+)
29(1)
2.2.3 Dithianitronium, NS(+)(2) and Bis(dihalothia)nitronium, (SX)(2)N(+)Ions
30(1)
2.2.4 Nitracidium Ion and DimethyInitracidium Ion
31(2)
2.2.5 Nitronium Ions From Nitroalkanes and Nitroarenes
33(1)
2.2.5.1 Hydroxynitronium Ions [Protonated Nitroalkanes(-arenes)]
33(4)
2.2.5.2 Methoxynitronium Ions (O-Alkylated Nitro Compounds) and Related Lewis Acid Complexes
37(3)
2.2.6 Nitrosonium Ion, No(+)
40(4)
2.2.7 The Nitrousacidium Ion (O-Protonated Nitrous Acid)
44(2)
2.3 Diazomium Ions
46(39)
2.3.1 Arylidazonium Ions, Ar-N(+)(2)
46(1)
2.3.1.1 Ambident Character of Aryldiazonium Ions
47(1)
2.3.1.2 Dediazoniation Mechanism
47(1)
2.3.1.3 Reversibility of Heterolytic Dediazoniation
48(1)
2.3.1.4 Aryldiazonium Ions in Superacids
50(1)
2.3.1.5 Organometalic Aryldiazonium Ions
51(1)
2.3.1.6 Cyclophane Diazonium Ions
52(1)
2.3.1.7 Fluoroaryldiazonium Ions
53(1)
2.3.1.8 Gas-Phase Aryldiazonium Ions
53(1)
2.3.1.9 Complexed Aryldiazonium Ions
53(4)
2.3.2 Nonaromatic Diazonium Ions
57(2)
2.3.2.1 Parent Diazonium Ion, HN(+)(2) (Protonated Dinitrogen)
59(1)
2.3.2.2 Methyl-and Ethyldiazonium Ions
60(2)
2.3.2.3 Fluorodiazonium Ion
62(1)
2.3.2.4 Fluoroalkyldiazonium Ions
63(1)
2.3.2.5 Amino(N-alkylamino) Diazonium Ions
63(5)
2.3.2.6 Cyano-and Nitrodiazonium Ions
68(1)
2.3.2.7 Methoxydiazonium Ions
69(2)
2.3.2.8 Hydroxydiazonium Ions
71(1)
2.3.2.9 Alkenyl-and Alkynyldiazonium Ions
72(1)
2.3.2.9.1 Preparation and Chemistry
72(5)
2.3.2.9.2 Theoretical Studies and X-ray Structures
77(1)
2.3.2.9.3 O-Alkylation of Alpha-Diazoketones
78(1)
2.3.2.9.4 Protonated Alpha-Diazocarbonyl Compounds
79(3)
2.3.2.9.5 Solvoltic Generation and Chemistry of Alkynydiazonium Ions
82(1)
2.3.2.10 Alicyclic diazonium Ions and Their Chemistry
82(2)
2.3.2.11 Heterocyclic Nonaromatic Diazonium Ions
84(1)
References
85(11)
3 Oxonium Ions
96(71)
3.1 Definition and Classification
96(1)
3.2 Preparation of Oxonium Ions
97(10)
3.2.1 Hydronium Ions, the Parent Oxonium Ions
97(1)
3.2.2 Primary Oxonium Ions
98(3)
3.2.3 Secondary Oxonium Ions
101(1)
3.2.4 Tertiary Oxonium Ions and Their Salts
102(5)
3.3 The Chemistry of Oxonium Ions
107(44)
3.3.1 The Chemistry of Acidic Oxonium Ions
107(2)
3.3.2 The Chemistry of Tertiary Oxonium Ions
109(1)
3.3.2.1 C-Alkylation
109(1)
3.3.2.2 N-Alkylation
110(1)
3.3.2.2.1 Alkylation of Amines and Related Compounds
110(1)
3.3.2.2.2 Alkylation of Imines and Related Compounds
111(4)
3.3.2.2.3 Alkylation of Nitriles and Related Compounds
115(2)
3.3.2.2.4 Alkylation of Five-Membered Heterocyclic Aromatic Compounds
117(1)
3.3.2.2.5 Alkylation of Six-Membered Heterocyclic Aromatic Compounds
118(2)
3.3.2.3 O-Alkylation
120(1)
3.3.2.3.1 Alkylation of Alcohols, Ethers, and Related Compounds
120(2)
3.3.2.3.2 Alkylation of Ketones and Related Compounds
122(4)
3.3.2.3.3 Esterification of Carboxylic Acids and Alkylation of Esters
126(1)
3.3.2.3.4 Alkylation of Sulfoxides and Phosphine Oxides
127(7)
3.3.2.3.5 Alkylation of Sulfoxides and Phosphine Oxides
134(2)
3.3.2.3.6 Alkylation of Nitrogen-Oxygen-Bond-Containing Compounds
136(1)
3.3.2.3.7 O-Alkylation of Enolates, Ylides, and Other Anion Bearing Compounds
137(1)
3.3.2.3.8 Preparation of Fischer Carbene Complexes
138(1)
3.3.2.3.9 O-Alkylation of Other Metal Complexes
139(1)
3.3.2.4 S-Alkylation of Sulfides and Related Compounds
140(1)
3.3.2.4.1 Alkylation of Sulfides and Relateds Compounds
140(4)
3.3.2.4.2 Alkylation of Thicarbonyl Compounds
144(1)
3.3.2.4.3 S-Alkylation of Ligands of Transition Metal Complexes
145(1)
3.3.2.5 Deprotonation of Trialkyloxonium Ions to Oxonium Ylides
146(2)
3.3.2.6 Miscellaneous Reactions
148(2)
3.3.3 Reactions of Arylalkyloxonium and Triaryloxonium Ions
150(1)
References
151(16)
4 Sulfonium, Selenonium, and Telluronium Ions
167(36)
4.1 Sulfonium Ions
167(23)
4.1.1 Trialkyl(aryl)Sulfonium Ions
167(3)
4.1.2 Acidic Sulfonium Ions
170(1)
4.1.2.1 Trihydridosulfonium Ion, the Parent Sulfonium Ion
170(1)
4.1.2.2 Monoalkylsulfonium Ions (Protonated Aliphatic Thiols)
171(1)
4.1.2.3 Dialkylsulfonium Ions
172(2)
4.1.2.4 Fluorinated Acidic Sulfonium Ions
174(1)
4.1.2.5 Acidic Cyclic Sulfonium Ions
175(1)
4.1.3 Tertiary Halosulfonium Ions
176(1)
4.1.3.1 Parent SF3+SCI3+SBr3+
176(1)
4.1.3.2 Dihalo-monoalkyl(perfluoroalkyl)sulfonium Ions
177(3)
4.1.3.3 Dihalo(pentafluorophenyl)sulfonium Ions
180(1)
4.1.3.4 Dialkyl(arylalkyl)bromo-and Dialkylchlorosulfonium Ions
181(2)
4.1.3.5 Diaryl(fluoro)-, Dimethyl(fluoro)-, and Diperfluoroalkyl(fluoro)sulfonium Ions
183(1)
4.1.4 S-Trifluoromethylated Dibenzothiophenium Ion
183(1)
4.1.5 Fluorothiosulfonium Ions
184(1)
4.1.6 Methoxyfluoro(trifluoromethyl)sulfonium Ions
184(2)
4.1.7 Aminofluorosulfonium Ions
186(1)
4.1.8 Nitro-and Nitritosulfonium Ions
187(1)
4.1.9 Cyanosulfonium Ions
188(1)
4.1.10 Dimercapto(methyl)sulflonium-and Bis(chlorothio)methylsulfonium Ion Salts
189(1)
4.1.11 Aurated Sulfonium Ions
189(1)
4.2 Selenonium and Telluronium Ions
190(9)
4.2.1 Trailkyl(aryl)selenonium and Telluronium Ions
190(1)
4.2.2 Divinyl-and Dialkylpropynyltelluronium Ions Salts
191(1)
4.2.3 Cyclical Selenonium Ions
191(1)
4.2.4 Fluorinate Selenonium and Telluronium Ions
192(1)
4.2.5 Acidic Selenonium and Telluronium Ions
193(1)
4.2.5.1 Hydridoselenonium and Telluronium Ions
193(1)
4.2.5.2 Methylselenonium Ion
193(1)
4.2.5.3 Dialkylselenonium and Telluronium Ions
194(1)
4.2.6 Multinuclear NMR studies
194(1)
4.2.7 Solid-State NMR and X-ray Study of Telluronium Ions
195(1)
4.2.8 Protosolvation and Alkylation Ability
195(1)
4.2.9 Haloselenonium and Telluronium Ions
196(1)
4.2.10 Diselenide Dications
197(1)
4.2.11 Aurated Selenonium Ions
198(1)
References
199(4)
5 Phosphonium and Arsonium Ions
203(43)
5.1 Phosphonium Ions
203(29)
5.1.1 Tetraakyl(aryl)phosphonium Ions
204(3)
5.1.2 Cyclic Phosphonium Ions
207(4)
5.1.3 NMR and X-ray Spectroscopic Studies of Alkyl(aryl)phosphonium Ions
211(1)
5.1.4 Aurated Phosphonium Ions
212(1)
5.1.5 Tetraaryl[(alkyl)(dialkylamino)]phosphonium Dications and Diphosphonyl Ethers
212(1)
5.1.6 Trimethylsilylphosphonium Ions
213(1)
5.1.7 Enamine Phosphonium Salts
214(1)
5.1.8 Halophosphonium and Hydroxyhalophosphonium Ions
215(4)
5.1.9 Hydroxy(alkoxy)phosphonium Ions
222(2)
5.1.10 Mercapto-and Methylthiophosphonium Ions and Their Halo Derivatives
224(3)
5.1.11 Bromosulfinyl(trihalo)phosophonium Ions
227(1)
5.1.12 Monoprotonated Phosphines and Halophosphines
228(4)
5.2 Arsonium Ions
232(10)
5.2.1 Tetraalkyl(vinyl)and Tetraaryl(alkyl)arsonium Ions
233(2)
5.2.2 (77)As NMR Studies of Arsonium Ions
235(1)
5.2.3 X-ray Structural Studies of Arsonium Ions
236(2)
5.2.4 Haloarsonium Ions
238(1)
5.2.4.1 Fluoroarsonium Ions
238(1)
5.2.4.2 Chloro-and Iodoarsonium Ions
239(1)
5.2.5 Hydroxy(alkoxy)arsonium Ions
240(1)
5.2.6 Acidic Arsonium Ions
240(1)
5.2.6.1 Hydrido(fluorohydrido)arsonium Ions
240(1)
5.2.6.2 Protonated Trivinylarsonium Ions
241(1)
References
242(4)
6 Halonium Ions
246(23)
6.1 Introduction
246(2)
6.2 Acyclic (Open-Chain) Halonium Ions
248(8)
6.2.1 Alkyl-and Arylhydridohalonium Ions
248(1)
6.2.2 Dilakyl, Alkyl(vinyl), Divinyl, and Dilakynylalonium Ions
248(4)
6.2.3 Alkyl(aryl), Alkenyl(aryl), and Alkynyl(aryl)halonium Ions
252(3)
6.2.4 Diarylhalonium Ions
255(1)
6.3 Cyclic Halonium Ions
256(9)
6.3.1 Ethylenehalonium Ions
256(3)
6.3.2 Trimethylenehalonium Ions
259(1)
6.3.3 Tetramethylenehalonium Ions
260(1)
6.3.4 Pentamethylenehalonium Ions
261(1)
6.3.5 Bicyclic Halonium Ions
262(2)
6.3.6 Halophenium Ions
264(1)
References
265(4)
7 Carboxonium, Carbosulfonium, and Carbazonium Ions
269(77)
7.1 Carboxonium Ions
270(34)
7.1.1 Acidic Carboxonium Ions: Preparation and Chemistry
271(15)
7.1.2 Alkylcarboxonium (Alkoxycarbenium) Ions
286(1)
7.1.2.1 Preparation
286(8)
7.1.2.2 Structure and Physical Properties
294(4)
7.1.2.3 Chemistry of Alkylcarboxonium Ions
298(7)
7.2 Carbosulfonium Ions
305(12)
7.2.1 Acidic Carbosulfonium Ions
306(1)
7.2.2 Tertiary Carbosulfonium Ions
307(1)
7.2.2.1 Preparation
307(3)
7.2.2.2 Structure and Physical Properties
310(2)
7.2.2.3 Chemistry of Carbosulfonium Ions
312(5)
7.3 Carbazonium Ions
317(16)
7.3.1 Iminium Ions
317(1)
7.3.1.1 Preparation and Structure
317(4)
7.3.1.2 Chemistry of Iminum Ions
321(5)
7.3.2 Nitrilium Ions
326(1)
7.3.2.1 Preparation and Structure of Nitrilium Ions
326(2)
7.3.2.2 Chemistry of Nitrilium Ions
328(5)
References
333(13)
8 Carbonium Ions
346(45)
8.1 General Concept of Carbocation: Carbenium versus Carbonium Ions
346(3)
8.2 Long-Lived Hypercoordinate (Nonclassic) Carbonium Ions
349(33)
8.2.1 Alkonium Ions
349(1)
8.2.1.1 Methonium Ion (CH(+)(5) and Related Ions
350(4)
8.2.1.2 Ethonium Ion (C(2)H(+)(7) and Related Ions
354(1)
8.2.1.3 Higher Alkonium Ions
355(2)
8.2.1.4 Mu-Hydrogen-Bridged Cycloaklonium Ions
357(2)
8.2.2 Cyclopropylmethyl and Cyclobutyl Cations
359(3)
8.2.3 2-Norbornyl Cation
362(7)
8.2.4 2-Bicyclo[2.1.1]hexyl Cation
369(2)
8.2.5 1,3,5,7-Tetramethyl-2-adamantyl Cation
371(1)
8.2.6 Bishomocyclopropenium Cations
372(3)
8.2.7 Trishomocyclopropenium Cations
375(2)
8.2.8 1,3-Dehydro-5,7-adamantanediyl Dications
377(1)
8.2.9 Hypercoordinate (Nonclassic) Pyramidal Carbocations
377(1)
8.2.9.1 (CH(+)(5)-Type Cations
377(3)
8.2.9.2 (CH(2+)(6)-Type Dications
380(2)
References and Notes
382(9)
9 Siliconium Ions
391(34)
9.1 Differentiation of Trivalent Silicenium from Five-Coordinate Siliconium Ions
391(1)
9.2 The Significance of Silicocations
392(1)
9.3 Differentiation of Silicocations from Carbocations
393(1)
9.4 Gaseous Siliconium Ions
393(3)
9.4.1 Protonated Silane, the Parent Siliconium Ion, SiH(+)(5)
393(2)
9.4.2 Silane Radical Cation SiH(++)(4)
395(1)
9.4.3 Ionization of Organosilanes in the Gas Phase
396(1)
9.5 Siliconium Ions in Solution
396(15)
9.5.1 Si(V)(+) Intermediates in Solvolysis
396(1)
9.5.1.1 S(N)I-Si and S(N)i-Si Systems
396(2)
9.5.1.2 S(E)i-Si and (S(N)i-S(E)i)Si Systems
398(1)
9.5.1.3 Siliconium Ion Formation by 1,3-Methyl Migration
399(1)
9.5.2 Reaction of Trialkyl(aryalkyl)silanes with Diborane
399(1)
9.5.3 Siliconium Ions in H-D Exchange of R(3)SiH with DI/AII(3)
400(1)
9.5.4 Siliconium Ion Intermediates in R(3)SiF/SbF(5) Exchanging System
400(3)
9.5.5 R(3)SiX/Friedel-Crafts Lewis Acid Complexes Involving Siliconium Ion Intermediates
403(4)
9.5.6 Siliconium Ion Intermediates in Si-C(Si-O) Cleavage Reactions
407(1)
9.5.6.1 With Protic Superacids and Superelectrophiles
407(3)
9.5.6.2 Acid Si--C Cleavage Involving Crowded Trisilylmethyl Group
410(1)
9.6 Beta-Silylcarbenium Ions with Bridging Siliconium Ion Nature
411(2)
9.7 Siliconium Ions with Bound Donor Ligands
413(7)
References
420(5)
10 Onium Dications
425(62)
10.1 Differentiations of Distonic from Gitonic Onium Dications
425(3)
10.1.1 Representative Distonic Onium Dications
425(1)
10.1.1.1 Ammonium Dications
425(1)
10.1.1.2 Oxonium and Sulfonium Dications
426(1)
10.1.1.3 Diacyl Cations and Dicarboxonium Ions
426(1)
10.1.1.4 Onium-Carboxonium Dications
427(1)
10.1.1.5 Oxonium-Diazonium Dications
427(1)
10.1.1.6 Onium Polycations
427(1)
10.2 Gitonic Onium Dications
428(51)
10.2.1 General Aspects
428(2)
10.2.2 Oxonium Dications
430(1)
10.2.2.1 Alkyloxonium Dications
430(5)
10.2.2.2 Protohydronium Dication (Diprotonated Water)
435(3)
10.2.3 Carboxonium Dications [Diprotonated (Alkylated) Carbonyl Compounds]
438(4)
10.2.4 Protonated (Lewis Acid-Complexed) Acyl Dications
442(3)
10.2.5 Diprotonated Carboxylic Acids
445(1)
10.2.6 Diprotonated Esters
446(1)
10.2.7 Diprotonated Carbon Monoxide (Protoformyl Dication)
447(3)
10.2.8 Protonated and Diprotonated Carbonic Acid and Carbon Dioxide
450(2)
10.2.9 Sulfonium (Selenonium, Telluronium) Dications
452(4)
10.2.10 Diprotonated (Alkylated) Thiocarbonyl Compounds, Thiocarboxylic Acids. Thiocarbonic Acid, and Carbonyl Sulfide
456(1)
10.2.11 Halonium Dications
457(1)
10.2.11.1 Protonated (Alkylated) Dialkylhalonium Dications
457(1)
10.2.11.2 Protiohalonium Dications
458(1)
10.2.12 Diprotonated Alkanes, (Protioalkonium Dications)
459(1)
10.2.12.1 Diprotonated Methane, (CH)(2+)(6) (Protiomethonium Dication)
459(3)
10.2.12.2 Diprotonated Ethane. C(2)H(2+)(8) (Protioethonium Dication)
462(1)
10.2.13 Triprotonated Methane, CH(3+)(7) (Diprotomethonium Trication)
462(2)
10.2.14 Protioalkyl Dications (Alkane Dications, Carbonium-Carbenium Dications)
464(1)
10.2.14.1 Protiomethyl Dications (Methane Dication)
464(1)
10.2.14.2 Protioethyl Dication (Ethane Dication)
465(1)
10.2.14.3 Protio-tert-butyl Dication (Isobutane Dication, C(4)H (2+)(10)
466(2)
10.2.14.4 Protio-2-propyl Dication (Propane Dication, C(3)H(2+)(8)
468(2)
10.2.15 Protio (Lewis Acid-Complexed) Halocarbenium Dications and Their Analogs
470(4)
10.2.16 Azacarbodications
474(3)
10.2.17 Diprotonated Nitric Acid and Protonitronium Dication
477(2)
10.2.18 Aurated Gitonic Onium Dications
479(1)
10.3 Conclusions and Significance
479(1)
References and Notes
480(7)
Index 487

An electronic version of this book is available through VitalSource.

This book is viewable on PC, Mac, iPhone, iPad, iPod Touch, and most smartphones.

By purchasing, you will be able to view this book online, as well as download it, for the chosen number of days.

Digital License

You are licensing a digital product for a set duration. Durations are set forth in the product description, with "Lifetime" typically meaning five (5) years of online access and permanent download to a supported device. All licenses are non-transferable.

More details can be found here.

A downloadable version of this book is available through the eCampus Reader or compatible Adobe readers.

Applications are available on iOS, Android, PC, Mac, and Windows Mobile platforms.

Please view the compatibility matrix prior to purchase.