Chemistry of Nanocarbons 1st Edition by Takeshi Akasaka, Fred Wudl, Shigeru Nagase ISBN 0470721952 9780470721957
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ISBN 10: 0470721952
ISBN 13: 9780470721957
Author: Takeshi Akasaka, Fred Wudl, Shigeru Nagase
Chemistry of Nanocarbons 1st Table of contents:
1. Noncovalent Functionalization of Carbon Nanotubes
1.1 introduction
1.2 overview of functionalization methods
1.3 the noncovalent approach
1.4 conclusion
2. Supramolecular Assembly of Fullerenes and Carbon Nanotubes Hybrids
2.1 introduction
2.2 hydrogen-bonded C₆₀-donor ensembles
2.3 concave exTTF derivatives as recognising motifs for fullerene
2.4 noncovalent functionalization of carbon nanotubes
2.5 summary and outlook
3. Properties of Fullerene-Containing Dendrimers
3.1 introduction
3.2 dendrimers with a fullerene core
3.3 fullerene-rich dendrimers
3.4 conclusions
4. Novel Electron Donor-Acceptor Nanocomposites
4.1 introduction
4.2 electron donor-fullerene composites
4.3 carbon nanotubes
4.4 other nanocarbon composites
5. Higher Fullerenes: Chirality and Covalent Adducts
5.1 introduction
5.2 the chemistry of C₇₀
5.3 the higher fullerenes beyond C₇₀
5.4 concluding remarks
6. Application of Fullerenes to Nanodevices
6.1 introduction
6.2 synthesis of transition metal fullerene complexes
6.3 organometallic chemistry of metal fullerene complexes
6.4 synthesis of multimetal fullerene complexes
6.5 supramolecular structures of penta(organo)[60]fullerene derivatives
6.6 reduction of penta(organo)[60]fullerenes to generate polyanions
6.7 photoinduced charge separation
6.8 photocurrent-generating organic & organometallic fullerene derivatives
6.9 conclusion
7. Supramolecular Chemistry of Fullerenes: Host Molecules for Fullerenes on the Basis of π-π Interaction
7.1 introduction
7.2 fullerenes as an electron acceptor
7.3 host molecules composed of aromatic π-systems
7.4 complexes with host molecules based on porphyrin π systems
7.5 complexes with host molecules bearing a cavity consisting of curved π system
7.6 the nature of the supramolecular property of fullerenes
8. Molecular Surgery toward Organic Synthesis of Endohedral Fullerenes
8.1 introduction
8.2 molecular-surgery synthesis of endohedral C₆₀ encapsulating molecular hydrogen
8.3 chemical functionalization of H₂@C₆₀
8.4 utilisation of the encapsulated H₂ as an NMR probe
8.5 physical properties of an encapsulated H₂ in C₆₀
8.6 molecular-surgery synthesis of endohedral C₇₀ encapsulating molecular hydrogen
8.7 outlook
9. New Endohedral Metallofullerenes: Trimetallic Nitride Endohedral Fullerenes
9.1 discovery, preparation, and purification
9.2 structural studies
9.3 summary and conclusions
10. Recent Progress in Chemistry of Endohedral Metallofullerenes
10.1 introduction
10.2 chemical derivatization of mono-metallofullerenes
10.3 chemical derivatization of di-metallofullerenes
10.4 chemical derivatization of trimetallic nitride template fullerene
10.5 chemical derivatization of metallic carbide fullerene
10.6 missing metallofullerene
10.7 supramolecular chemistry
10.8 conclusion
11. Gadonanostructures as Magnetic Resonance Imaging Contrast Agents
11.1 magnetic resonance imaging (MRI) and the role of contrast agents
11.2 advantages of gadonanostructures as MRI contrast agent synthons
11.3 gado-fullerenes as MRI contrast agents
11.4 understanding the relaxation mechanism of gado-fullerenes
11.5 gadonanotubes as MRI contrast agents
12. Chemistry of Soluble Carbon Nanotubes: Fundamentals and Applications
12.1 introduction
12.2 characterisations of dispersion states
12.3 CNT solubilisation by small molecules
12.4 solubilisation by polymers
12.5 nanotube/polymer hybrids and composites
12.6 summary
13. Functionalization of Carbon Nanotubes for Nanoelectronic and Photovoltaic Applications
13.1 introduction
13.2 functionalization of carbon nanotubes
13.3 properties and applications
13.4 conclusion
14. Dispersion and Separation of Single-walled Carbon Nanotubes
14.1 introduction
14.2 dispersion of SWNTs
14.3 purification and separation of SWNTs using amine
14.4 conclusion
15. Molecular Encapsulations into Interior Spaces of Carbon Nanotubes and Nanohorns
15.1 introduction
15.2 SWCNT nanopeapods
15.3 material incorporation and release in/from SWNH
15.4 summary
16. Carbon Nanotube for Imaging of Single Molecules in Motion
16.1 introduction
16.2 electron microscopic observation of small molecules
16.3 TEM imaging of alkyl carborane molecules
16.4 alkyl chain passing through a hole
16.5 3D structural information on pyrene amide molecule
16.6 complex molecule 4 fixed outside of nanotube
16.7 conclusion
17. Chemistry of Single-Nano Diamond Particles
17.1 introduction
17.2 geometrical structure
17.3 electronic structure
17.4 properties
17.5 applications
17.6 recollection and perspectives
18. Properties of π-electrons in Graphene Nanoribbons and Nanographenes
18.1 introduction
18.2 edge effects in graphene nanoribbons and nanographenes
18.3 electronic and magnetic properties of graphene nanoribbons and nanographenes
18.4 outlook
19. Carbon Nano Onions
19.1 introduction
19.2 physical properties of carbon nano onions obtained from annealing
19.3 Raman spectroscopy of carbon nano onions prepared by annealing nanodiamonds
19.4 electron paramagnetic resonance spectroscopy
19.5 carbon nano onions prepared from arcing graphite underwater
19.6 reactivity of carbon nano onions (CNOs)
19.7 potential applications of CNOs
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Tags: Takeshi Akasaka, Fred Wudl, Shigeru Nagase, Nanocarbons