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200 00$aActive metals$b[electronic resource] $epreparation, characterization, applications /$fedited by Alois Fu?rstner
210   $aWeinheim ;$aNew York $cVCH$dc1996
215   $a1 online resource (486 p.)
300   $aDescription based upon print version of record.
311   $a3-527-29207-1 
320   $aIncludes bibliographical references and indexes.
327   $aActive Metals; Preface; Contents; List of Contributors; 1 Rieke Metals : Highly Reactive Metal Powders Prepared by Alkali Metal Reduction of Metal Salts; 1.1 Introduction; 1.1.1 Physical Characteristics of Highly Reactive Metal Powders; 1.2 Rieke Magnesium, Calcium, Strontium, and Barium; 1.2.1 Formation of Rieke Magnesium; 1.2.2 Formation of Rieke Calcium. Strontium. and Barium; 1.2.3 Grignard Reactions Using Rieke Metals; 1.2.4 1,3-Dicne-Magnesium Reagents; 1.2.4.1 Preparation; 1.2. 4.2 Regioselcctivity
327   $a1.2.4.3 Carbocyclization of (1.4-Diphenyl-2-butene-1,4-diyl)magnesium with Organic Dihalides1.2.4.4 1,2-Dimethylenecycloalkan e.Magnesium Reagents; 1.2.4.5 Synthesis of Fused Carbocycles, ?, ?-Unsaturated Ketones and 3-Cyclopentenols from Conjugated Diene-Magnesium Reagents; 1.2.4.6 Synthesis of Spiro ?-Lactones and Spiro ?-Lactones from 1,3-Diene-Magnesium Reagents; 1.2.4.7 Synthesis of ?-Lactams from Conjugated Diene-Magnesium Reagents; 1.3 Rieke Zinc; 1.3.1 The Preparation of Rieke Zinc; 1.3.2 Direct Oxidative Addition of Functionalized Alkyl and Aryl Halides
327   $a1.3.3 Reactions of Organozinc Reagents with Acid Chlorides1.3.4 Reactions of Organozinc Reagents with ?, ?-Unsaturated Ketones; 1.3.5 Reactions with Allylic and Alkynyl Halides; 1.3.6 Cross-Coupling of Vinyl and Aryl Organozinc Reagents Using a Palladium Catalyst; 1.3.7 Intramolecular Cyclizations and Conjugate Additions Mediated by Rieke Zinc; 1.3.8 Formation of Tertiary and Secondary Alkylzinc Bromides; 1.3.9 Cyanide-Based Rieke Zinc; 1.4 Organocopper Reagents Utilizing Rieke Copper; 1.4.1 Introduction; 1.4.2 Background to the Development of Rieke Copper; 1.4.3 Phosphine-Based Copper
327   $a1.4.4 Lithium 2-Thienylcyanocuprate-Based Copper1.4.5 Copper Cyanide-Based Active Copper; 1.4.6 Two-Equivalent Reduction of Copper(I) Complexes : A Formal Copper Anion; 1.5 Rieke Aluminum, Indium, and Nickel; 1.5.1 Aluminum; 1.5.2 Indium; 1 5.3 Nickel; 1.6 Synthesis of Specialized Polymers and New Materials via Rieke Metals; 1.6.1 Formation of Polyarylenes Mediated by Rieke Zinc; 1.6.2 Regiocontrolled Synthesis of Poly(3-alkylthiophenes) and Related Polymers Mediated by Rieke Zinc; 1.6.3 Synthesis of Poly(phenylcarbyne) Mediated by Rieke Calcium, Strontium, or Barium
327   $a1.6.4 Chemical Modification of Halogenated Polystyrenes Using Rieke Calcium or Copper1.6.5 Polymer Supported Rieke Metal Reagents and their Applications in Organic Synthesis; 2 Allylic Barium Reagents; 2.1 Introduction; 2.2 Preparation of Stereochemically Homogeneous Allylic Barium Reagents; 2.2.1 Direct Insertion Method Using Reactive Barium; 2.2.2 Stereochemical Stability; 2.2.3 Silylation of Stereochemically Homogeneous Allylic Barium Reagents; 2.2.3.1 Procedure for Generation of Reactive Barium (Ba*); 2.2.3.2 Procedure for Protonation of the Geranyl Barium Reagent
327   $a2.2.3.3 Silylation of (E)-2-Decenylbarium Chloride
330   $aReactions with metals are ubiquitous in organic synthesis and, particularly in the last few years, a large repertoire of methods for the activation of metals and for their use in organic synthesis has been developed. In Active Metals, topics ranging from morphology of metal clusters and nanometallurgy to organometallic chemistry, catalysis and the use of activated metals in natural product synthesis are authoritatively discussed by leading experts in the field.Active Metals will allow you to fully benefit from the recent advances in the field by giving:* Detailed experimental p
606   $aMetal activation
606   $aActive metals
606   $aOrganometallic compounds$xSynthesis
615  0$aMetal activation.
615  0$aActive metals.
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200 10$aGerminal d'Emile Zola (Analyse de L'oeuvre) $eResume Complet et Analyse detaillee de L'oeuvre /$fHadrien Seret, Lucile Lhoste
210  1$aCork, Ireland :$cLemaitre Publishing,$d[2011]
210  4$dİ2011
215   $a1 online resource (30 p.)
225 1 $aFiche de Lecture 
300   $aDescription based upon print version of record.
311   $a2-8062-1284-7 
327   $a1. Re?sume?; Premie?re partie; Deuxie?me partie; Troisie?me partie; Quatrie?me partie; Cinquie?me partie; Sixie?me partie; Septie?me partie; 2. E?tude des personnages; Les ouvriers; a) E?tienne Lantier; b) Maheu; c) Catherine Maheu; d) Chaval; La bourgeoisie; a) La bourgeoisie aise?e : les Gre?goire; b) La bourgeoisie moyenne : les Hennebeau; c) La bourgeoisie en difficulte? : Deneulin; 3. Cle?s de lecture; Un roman ancre? dans son temps; a) Situation des mineurs au milieu du XIXe sie?cle; b) L'e?mergence du socialisme et l'Internationale; c) Un traitement e?quitable des deux camps
327   $ad) Les malheurs de la bourgeoisieUn roman des Rougon-Macquart; The?mes principaux de Germinal; a) L'amour; b) La violence; c) L'amitie?; d) L'espoir, la cle? du titre; 4. Pistes de re?flexion; 5. Informations comple?mentaires
330   $a Tout ce qu'il faut savoir sur Germinal de Zola ! Retrouvez l'essentiel de l'?uvre dans une fiche de lecture comple?te et de?taille?e, avec un re?sume?, une e?tude des personnages, des cle?s de lecture et des pistes de re?flexion. Re?dige?e de manie?re claire et accessible, la fiche de lecture propose d'abord un re?sume? partie par partie du roman, puis s'inte?resse aux personnages des ouvriers, dont Lantier, Maheu et Chaval, et aux industriels bourgeois comme les Gre?goire et les Hennebeau. On e?tudie ensuite la porte?e sociale et politique de l'?uvre, l'inte?re?t documentaire de la description de la mine au XI
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606   $aCoal mines and mining$vFiction
606   $aStrikes and lockouts$vFiction
615  0$aCoal mines and mining
615  0$aStrikes and lockouts
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