Cover image for Ferrocenes : Compounds, Properties and Applications.
Ferrocenes : Compounds, Properties and Applications.
Title:
Ferrocenes : Compounds, Properties and Applications.
Author:
Phillips, Elisabeth S.
ISBN:
9781611222241
Personal Author:
Physical Description:
1 online resource (413 pages)
Series:
Chemical Engineering Methods and Technology
Contents:
FERROCENES: COMPOUNDS, PROPERTIES AND APPLICATIONS -- FERROCENES: COMPOUNDS, PROPERTIES AND APPLICATIONS -- CONTENTS -- PREFACE -- SYNTHESIS OF PRISTINE AND DOPED CARBON NANOTUBES USING FERROCENE -- ABSTRACT -- INTRODUCTION -- STRUCTURE AND PROPERTIES OF FERROCENE -- STRUCTURE AND BONDING -- SYNTHESIS OF PRISTINE CARBON NANOTUBES -- SYNTHESIS OF DOPED CARBON NANOTUBES -- CONCLUSION -- REFERENCES -- USE OF FERROCENE AND FERROCENE ADMIXED PRECURSORS FOR THE SYNTHESIS OF CARBON NANOTUBES -- ABSTRACT -- 1. INTRODUCTION -- 2. SYNTHESIS OF CNTS USING FERROCENE -- 3. SYNTHESIS OF CNTS BY FERROCENE AND HYDROCARBON MIXTURE -- 3.1. Synthesis of CNTs by Ferrocene and Gaseous Hydrocarbon -- 3.2. Synthesis of CNTs by Ferrocene and Liquid Hydrocarbon -- 3.2.1. CVD of Ferrocene - Liquid Hydrocarbon Through Syringe Pump -- 3. 2.2. Spray Assisted CVD Method -- 3.2.3. Aerosol and Nebulized Spray Assisted CVD Method -- 4. SYNTHESIS OF CNTS USING FERROCENE AND NATURAL PRECURSOR -- 5. SYNTHESIS OF CNTS USING FERROCENE AND OTHER CARBON SOURCES -- 6. SUMMARY -- ACKNOWLEDGMENTS -- REFERENCES -- TRANSITION-METAL CATALYZED REACTIONS IN THE SYNTHESIS OF FERROCENE DERIVATIVES -- ABSTRACT -- 1. INTRODUCTION -- 2. HOMOGENEOUS CATALYTIC HYDROGENATION OF FERROCENE DERIVATIVES -- 3. SYNTHESIS OF CHIRAL DIOLS BY ASYMMETRIC DIHYDROXYLATION OF FERROCENYL ALKENES -- 4. HOMOGENEOUS CATALYTIC HYDROSILYLATION OF FERROCENE DERIVATIVES -- 5. CARBON-CARBON BOND-FORMING REACTIONS -- 5.1. Heck Reactions of Ferrocenyl Substrates -- 5.2. Cross-Coupling Reactions -- 5.2.1. Stille Coupling -- 5.2.2. Suzuki Coupling -- 5.2.3. Negishi Coupling -- 5.2.4. Cross-Coupling of Organomercurials -- 5.2.5. Other Coupling Reactions with Organometallic Reagents -- 5.2.6. Sonogashira Coupling -- 5.3. Metathesis Reactions -- 5.3.1. Ring-Closing Metathesis Reactions.

5.3.2. Ring-Opening Metathesis Polymerization -- 6. C-HETEROATOM COUPLING REACTIONS OF FERROCENE DERIVATIVES -- 7. RING-OPENING POLYMERIZATION REACTIONS -- 8. COPPER CATALYZED AZIDE-ALKYNE CYCLOADDITION -- 9. CARBONYLATION REACTIONS LEADING TO CARBOXYLIC ACID DERIVATIVES AND CARBONYL COMPOUNDS -- 9.1. Palladium-Catalyzed Aminocarbonylation -- 9.2. Carbonylative Coupling Reactions -- 10. MISCELLANEOUS REACTIONS -- CONCLUSION -- REFERENCES -- EXPLOITING FERROCENE TO DEVELOP SYNTHETIC MOLECULAR MACHINES -- ABSTRACT -- 1. INTRODUCTION -- 2. FERROCENE HOST-GUEST CHEMISTRY AND STIMULI RESPONSIVE HOST-GUEST SYSTEMS -- 2.1. Ferrocene Host-Guest Chemistry -- 2.2 Stimuli Responsive Host-Guest Systems Containing Ferrocene -- 3. STIMULI RESPONSIVE INTERLOCKED ARCHITECTURES CONTAINING FERROCENE -- 3.1. Introduction to Mechanically Interlocked Architectures -- 3.2 Ferrocene Containing Mechanically Interlocked Architectures -- 3.3. Redox Induced Motion in Ferrocene Containing Mechanically Interlocked Architectures -- 3.4. Light Induced Motion in Ferrocene Containing Mechanically Interlocked Architectures -- 3.5. Solvent Induced Motion in Ferrocene Containing Mechanically Interlocked Architectures -- 4. CONTROLLED ROTARY MOTION IN FERROCENE MOLECULAR "BALL BEARING" SYSTEMS -- 4.1 Stimuli-Induced Conformational Control in Ferrocene Systems -- 5. OTHER MACHINE LIKE SYSTEMS CONTAINING FERROCENE -- 5.1 Electrochemically Induced Disassembly of a Self-Assembled Molecular Cage [259] -- 5.2 Rotary Motion on Surfaces -- 5.3. Surface Bound Ferrocene Containing Rotaxane Anion Sensors -- 5.4. Surface Bound Ferrocene Containing Molecular Motor -- CONCLUSION -- ACKNOWLEDGMENTS -- REFERENCES -- SYNTHESIS, PROPERTIES AND APPLICATION OF FERROCENE AMINO ACIDS, PEPTIDES AND B-LACTAMS -- ABSTRACT -- 1. INTRODUCTION.

2. METHODS FOR PREPARATION OF FERROCENE AMINO ACIDS, PEPTIDES, AND Β-LACTAMS -- 2.1. Ferrocene Amino Acids and Peptides -- 2.1.1. Amino Acids and Peptides Derived from the Monosubstituted Ferrocene Moiety -- 2.1.1.1. Peptide labeling -- 2.1.1.2. Insertion of Ferrocene Amino Acids in Peptide Chains -- 2.1.1.3. Miscellanous Methods -- 2.1.2. Amino Acids and Peptides Derived from the Disubstituted Ferrocene Moiety -- 2.2. Ferrocene β-Lactams -- 3. PHYSICAL, CHEMICAL, AND MEDICINAL PROPERTIES OF FERROCENE AMINO ACIDS, PEPTIDES, AND Β-LACTAMS -- 3.1. Structural Properties of Ferrocene Amino Acids and Peptides -- 3.2. Electrochemical Properties of Ferrocene Amino Acids and Peptides -- 3.3. Medicinal Properties of Ferrocene Amino Acids, Peptides, and Β-Lactams -- CONCLUSIONS -- REFERENCES -- PROGRESS ON MULTIMETALLIC COMPLEXES DERIVED FROM FERROCENE ACID PRECURSOR COMPLEXES -- ABBREVIATIONS -- ABSTRACT -- 1. INTRODUCTION -- 2. SYNTHESIS OF FERROCENYL METAL COMPLEXES DERIVED FROM FERROCENE ACID PRECURSOR COMPLEXES -- 3. MULTIMETALLIC COMPLEXES CONSTRUCTED FROM FERROCENECARBOXYLATE PRECURSOR COMPLEXES -- 3.1. Multimetallic Complexes Constructed From A-Benzamido-Β-Ferrocenylacrylic Carboxyl (Bafca) Precursor Complexes -- 3.2. Multimetallic Complexes Constructed from Β-Ferrocenylacryl (Β-OOCCH=Chfc) Precursor Complexes -- 3.3. Multimetallic Complexes Constructed from P-Ferrocenylbenzoatyl (P-OOCH4C6Fc) Precursor Complexes -- 3.4. Multimetallic Complexes Constructed from 2-Chloro-4-Ferrocenylbenzoic (2-Cl-4-Fcc6h3clcoo) Precursor Complexes -- 3.5. Multimetallic Complexes Constructed from 1,1'-Bis(3-Carboxy-1-Oxopropyl)Ferrocenyl (H2bfcs) Precursor Complexes -- 4. MULTIMETALLIC COMPLEXES CONSTRUCTED FROM FERROCENYL PRECURSOR COMPLEXES IN A SINGLE-CRYSTAL TO SINGLE-CRYSTAL TRANSFORMATION MANNER -- CONCLUSION AND OUTLOOK -- ACKNOWLEDGMENTS -- REFERENCES.

IRON COMPLEXES BASED CATALYSTS: THE ROLE OF THE LIGAND NATURE IN THE POLYMERIZATION OF CONJUGATED DIOLEFINS AND OLEFINS -- ABSTRACT -- 1. INTRODUCTION -- 2. OLIGO- AND POLYMERIZATION OF OLEFINS WITH IRON COMPLEXES BASED CATALYSTS -- 2.1. Bipyridine- and Phenantroline- Iron Complexes -- 2.2. Saturated Polydentate Amines Iron Complexes -- 2.3. Bis (Imino) Pyridine Iron Complexes -- 2.4. Mono (Imino) Pyridine Iron Complexes -- 2.5. Dissymmetric 2,6-Bis(Imino)Pyridine Iron Complexes -- 2.6. Polymerization of Olefins with Iron Complexes Based Catalysts: Polymerization Mechanism -- 2.7. Heterogenized Iron (II) Catalysts -- 3. POLYMERIZATION OF CONJUGATED DIOLEFINS -- 3.1. Polymerization of 1,3-Butadiene -- 3.2. Polymerization of Substituted 1,3-Butadienes -- 3.3. Some Remarks on the Diene Polymerization Mechanism -- CONCLUSIONS -- REFERENCES -- REDUCTIVE HOMOCOUPLING OF AROMATIC HALIDES CATALYZED BY 1,1'-BIS(DIPHENYL-PHOSPHINO) FERROCENE COORDINATED PALLADIUM COMPLEX -- ABSTRACT -- INTRODUCTION -- CONCLUSIONS -- REFERENCES -- ENANTIOSELECTIVE SYNTHESES OF PLANAR-CHIRAL FERROCENES -- 1. INTRODUCTION -- 2. KINETIC RESOLUTIONS [13] -- 2.1. Enzymatic Kinetic Resolutions -- 2.2. Non-Enzimatic Kinetic Resolutions -- 3. ENANTIOSELECTIVE METHODOLOGIES FOR THE SYNTHESIS OF PLANAR-CHIRAL FERROCENES -- CONCLUSIONS AND OUTLOOK -- ACKNOWLEDGMENTS -- REFERENCES -- ELECTROCHEMICAL AND SPECTROSCOPIC PROPERTIES OF FERROCENES AND THEIR RELATIONSHIP WITH BIOLOGICAL AND ENVIRONMENTAL APPLICATIONS -- ABSTRACT -- INTRODUCTION -- 1. PROPERTIES RESPONSIBLE FOR CYTOTOXICITY AND ANTIMICROBIAL ACTIVITY -- 2. FERROCENES AS DRUGS -- 3. FERROCENES AS DNA BINDERS -- 4. FERROCENES AS BIOSENSORS -- 4.1. Ferrocenes in DNA Biosensors -- 4.2. Ferrocenes in Enzyme Biosensors -- 5. ENVIRONMENTAL USES OF FERROCENES -- 5.1. Ferrocenes in Mercuric Ion Sensors.

5.2. Ferrocenes in Anion Sensors -- 5.3. Ferrocenes in Gas Sensors -- 6. FERROCENES IN MOLECULAR MACHINES -- CONCLUSION -- REFERENCES -- ELECTRON-IONIZATION MASS SPECTRA OF (SUBSTITUTED PHENYL) FERROCENES -- ABSTRACT -- 1. INTRODUCTION -- 2. EXPERIMENTAL -- 3. RESULTS AND DISCUSSION -- 3.1. (P-Substituted Phenyl)Ferrocenes -- 3.2. (O-Substituted Phenyl)Ferrocenes -- REFERENCES -- INDEX.
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Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2017. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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