دانلود کتاب Organozinc Derivatives and Transition Metal Catalysts: Formation of C-C Bonds by Cross-coupling
کتاب مشتقات ارگانکینک و کاتالیزورهای فلزی انتقال: تشکیل اوراق قرضه C-C توسط اتصال متقابل نسخه زبان اصلی
دانلود کتاب مشتقات ارگانکینک و کاتالیزورهای فلزی انتقال: تشکیل اوراق قرضه C-C توسط اتصال متقابل بعد از پرداخت مقدور خواهد بود
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توضیحاتی در مورد کتاب Organozinc Derivatives and Transition Metal Catalysts: Formation of C-C Bonds by Cross-coupling
نام کتاب : Organozinc Derivatives and Transition Metal Catalysts: Formation of C-C Bonds by Cross-coupling
عنوان ترجمه شده به فارسی : مشتقات ارگانکینک و کاتالیزورهای فلزی انتقال: تشکیل اوراق قرضه C-C توسط اتصال متقابل
سری :
نویسندگان : Cossy J. (ed.)
ناشر : Walter de Gruyter
سال نشر : 2023
تعداد صفحات : 221
ISBN (شابک) : 9783110728774
زبان کتاب : English
فرمت کتاب : pdf
حجم کتاب : 5 مگابایت
بعد از تکمیل فرایند پرداخت لینک دانلود کتاب ارائه خواهد شد. درصورت ثبت نام و ورود به حساب کاربری خود قادر خواهید بود لیست کتاب های خریداری شده را مشاهده فرمایید.
فهرست مطالب :
Cover
Half Title
Also of Interest
Organozinc Derivatives and Transition Metal Catalysts: Formation of C-C Bonds by Cross-coupling
Copyright
Dedication
Contents
Preface
1. Organozinc reagents and palladium
1.1 Introduction
1.2 Discovery, early times and examples
1.3 Mechanistic insights
1.3.1 Rate determining step
1.3.2 Role of additives
1.3.3 Bimetallic interactions
1.3.4 Homocoupling undesirable pathways
1.3.5 β-hydride undesirable pathways
1.4 Remarkable ligands
1.4.1 Activation of strong C-X bonds: The quest for electron-rich ligands
1.4.2 Bypassing the hydride β-elimination
1.5 Applications
1.5.1 Arylzinc reagents
1.5.1.1 With aryl electrophiles
1.5.1.2 With vinyl electrophiles
1.5.1.3 Alkyl electrophiles
1.5.2 Vinylzinc reagents
1.5.2.1 With aryl electrophiles
1.5.2.2 With vinyl electrophiles
1.5.2.3 With alkyl electrophiles
1.5.3 Alkylzinc reagents
1.5.3.1 With aryl electrophiles
1.5.3.2 With vinyl electrophiles
1.5.3.3 With alkyl electrophiles
1.5.4 Alkynylzinc
1.5.4.1 With aryl electrophiles
1.5.4.2 With vinyl electrophiles
1.5.4.3 With alkyl electrophiles
1.5.4.4 With alkynyl electrophiles
1.6 Development of high-scale cross-coupling processes in modern organic synthesis
1.6.1 Addressing the question of palladium contamination
1.6.2 Toward easily scalable processes: Cross-couplings and flow chemistry
1.6.3 Green and sustainable Negishi cross-coupling in aqueous solvents
1.7 Synthesis of complex targets
1.7.1 Other applications of Pd-catalyzed Negishi couplings in total synthesis
1.7.2 Toward functionalization of highly sensitive targets
1.7.3 Applications in radiolabeling chemistry
1.8 Summary and conclusion
References
2. Organozinc reagents and nickel
2.1 Introduction
2.2 Cross-coupling reactions of arylzinc reagents
2.2.1 With aryl derivatives
2.2.1.1 With aryl chlorides and bromides
2.2.1.2 With aryl fluorides
2.2.1.3 With phenol esters
2.2.1.3.1 With aryl pivalates
2.2.1.3.2 With aryl triflates
2.2.1.4 With aryl ethers
2.2.1.5 With aryltrimethylammonium iodides and triflates
2.2.1.6 With arylthioethers
2.2.1.7 With arylsulfonium salts
2.2.1.8 With arylmethylsulfoxides
2.2.2 With alkenyl derivatives
2.2.2.1 With enol ethers
2.2.2.1.1 With vinyl pivalates
2.2.2.1.2 With vinyl triflates
2.2.2.1.3 With vinyl phosphates
2.2.2.2 With sulfonium salts
2.2.3 With alkynyl derivatives
2.2.4 With alkyl derivatives
2.2.4.1 With secondary alkyl halides
2.2.4.1.1 With CF3-substituted secondary alkyl halides
2.2.4.1.2 With α-haloamides
2.2.4.1.3 With α-bromo alkylnitriles
2.2.4.2 With secondary benzyl mesylates
2.2.4.3 With allyl methyl ethers
2.2.4.4 With propargylic carbonates
2.2.4.5 With thiocarbamates
2.2.4.6 With trialkylsulfonium salts
2.2.4.7 With aliphatic carboxylic acids
2.2.4.8 With alkylsulfones
2.3 Coupling reactions of alkenylzinc reagents
2.3.1 With alkyl derivatives
2.3.1.1 With α-bromonitriles
2.3.1.2 With activated esters
2.4 Coupling reactions of alkynylzinc reagents
2.4.1 With aryl derivatives
2.4.2 With alkenyl derivatives
2.4.2.1 With alkenyl triflates
2.4.2.2 With alkenyl sulfonium salts
2.4.3 With alkyl derivatives
2.4.3.1 With N-hydroxyphthalimide aliphatic esters
2.5 Coupling reactions of alkylzinc reagents
2.5.1 With aryl derivatives
2.5.1.1 With aryl halides
2.5.1.2 With aryl fluorides
2.5.1.3 With aryl triflates
2.5.1.4 With phenol esters
2.5.1.5 With aryl ethers
2.5.1.6 With aryl thiomethylethers
2.5.1.7 With aryl trimethylammonium iodides
2.5.2 With alkenyl derivatives
2.5.2.1 With α-oxy-vinylsulfones
2.5.2.2 With alkenyl sulfoximines
2.5.3 With alkyl derivatives
2.5.3.1 With primary alkyl halides and alkylorganozinc species
2.5.3.2 With secondary alkyl halides
2.5.3.3 With propargyl bromides
2.5.3.4 With α-halosugars
2.5.3.5 With benzylic ethers and esters
2.5.3.6 With alkylpyridinium salts
2.5.4 With carboxylic acids
2.5.4.1 From alkyl carboxylic acid
2.5.4.2 From α-amino and α-acetoxyacids
2.5.4.3 From cyclobutane carboxylic acid
2.5.5 With N-tosylaziridines
2.5.6 Miscellaenous reactions
2.6 Conclusion
References
3. Organozinc reagents and iron
3.1 Introduction
3.2 Cross-coupling reactions of alkylzinc reagents
3.2.1 With acyl chlorides
3.3 Cross-coupling reactions of arylzinc reagents
3.3.1 With aryl derivatives
3.3.2 With alkyl derivatives
3.3.3 With allyl and propargyl derivatives
3.3.4 With benzyl halides
3.4 Cross-coupling reactions of alkenylzinc reagents
3.4.1 With alkyl halides
3.5 Cross-coupling reactions of alkynylzinc reagents
3.5.1 With aryl halides
3.6 C-H bond activation
3.6.1 Iron-catalyzed arylation of C(sp2)-H bonds
3.6.2 Iron-catalyzed alkylation of C(sp2)-H bonds
3.6.3 Iron-catalyzed arylation of C(sp3)-H bonds
3.6.4 Iron-catalyzed alkylation of C(sp3)-H bonds
3.6.5 Iron-catalyzed addition of C(sp2)-H bonds to alkynes, alkenes and allenes
3.7 Mechanistic considerations
3.8 Conclusion
References
4. Organozinc reagents and cobalt
4.1 Introduction
4.2 Formation of arylzinc reagents
4.3 Coupling reactions of arylzinc reagents
4.3.1 With aryl halides, heteroaryl halides and vinyl halides
4.3.2 With alkyl halides
4.3.3 With alkynyl halides
4.3.4 With acyl halides
4.3.5 With nitriles
4.3.6 With N-hydroxyphtalimide esters
4.4 Coupling reactions of alkenylzinc and alkynylzinc reagents
4.5 Coupling reactions of allylzinc reagents
4.6 Coupling reactions of alkylzinc reagents
4.6.1 With aryl and heteroaryl halides
4.6.2 With allyl and vinyl halides
4.6.3 With alkyl halides
4.6.4 With acyl chlorides
4.7 Multicomponent reactions
4.8 Conclusion
References
5. Organozinc reagents and copper
5.1 Introduction
5.2 Coupling reactions of (hetero)arylzinc reagents
5.2.1 With (hetero)aryl halides
5.2.2 With acyl chlorides
5.2.3 With carbon dioxide
5.2.4 With allyl bromides
5.2.5 With a trifluoromethyl group using Togni’s reagent
5.3 Coupling reactions of alkenylzinc reagents
5.4 Coupling reactions of alkynylzinc reagents
5.5 Coupling reactions of alkylzinc reagents
5.5.1 With aryl and heteroaryl halides
5.5.2 With vinyl halides and vinyl pseudohalides
5.5.3 Coupling with acyl chlorides
5.5.4 With allyl halides
5.5.5 With propargyl pseudohalides
5.5.6 With α-halogeno carbonyl derivatives
5.5.7 Oxydative homocoupling of dialkylzinc reagents
5.6 Coupling of perfluoroalkylzinc reagents
5.6.1 With (hetero)aryl halides
5.6.1.1 Introduction of CF3 and perfluoroalkyl chains
5.6.1.2 Introduction of the CF2H moiety
5.6.1.3 Introduction of the -CF2P(O)(OR)2 moiety
5.6.2 With vinyl iodides and β-nitrostyrenes
5.6.3 With acyl chlorides
5.6.4 With bromoalkynes
5.6.5 With allyl halides
5.6.6 With propargyl halides
5.6.7 With alkyl halides
5.7 Conclusion
References
List of contributors
Index
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