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[资源] Chemical Reviews最新鸿篇巨制—碳的同素异形体—79页（引文896篇）

本文主要介绍碳元素的纳米同素异形体
Broad Family of Carbon Nanoallotropes: Classification, Chemistry,
and Applications of Fullerenes, Carbon Dots, Nanotubes, Graphene,
Nanodiamonds, and Combined Superstructures
Vasilios Georgakilas,† Jason A. Perman,‡ Jiri Tucek,‡ and Radek Zboril*,‡
†Material Science Department, University of Patras, 26504 Rio Patras, Greece
‡Regional Centre of Advanced Technologies and Materials, Department of Physical Chemistry, Faculty of Science, Palacky University
in Olomouc, 17 listopadu 1192/12, 771 46 Olomouc, Czech Republic

The unique ability of carbon atoms to participate in robust
covalent bonds with other carbon atoms in diverse hybridization
states (sp, sp2, sp3) or with nonmetallic elements enables them to
form a wide range of structures, from small molecules to long
chains. This property underpins the immense importance of
organic chemistry and biochemistry in life. It was two centuries
ago that carbon was first shown to be present in organic
molecules and biomolecules as well as natural carbon materials
such as the various types of amorphous carbon, diamond, and
graphite. Although diamond and graphite both consist
exclusively of carbon atoms, their properties are very different.
Diamond is a transparent electrical insulator and the hardest
known material. Conversely, graphite is a black opaque soft
material with remarkable electrical conductivity. These differences
derive from the way that the carbon atoms are connected in
each case. Diamond consists of tetrahedral sp3 carbon atoms that
form unique large crystals. In contrast, graphite is made up of
stacked graphene monolayers that are held together by van der
Waals interactions. These graphene monolayers consist of sp2
carbon atoms that are packed densely in a two-dimensional
hexagonal lattice.

1. Introduction B
2. Classification of Carbon Nanoallotropes: Structural
Description and Characterization C
2.1. 0D Carbon Nanoallotropes C
2.1.1. Fullerenes and Onion-like Carbon C
2.1.2. Carbon Dots D
2.1.3. Graphene Quantum Dots E
2.1.4. Nanodiamonds F
2.2. 1D Carbon Nanoallotropes F
2.2.1. Carbon Nanotubes and Nanofibers F
2.2.2. Carbon Nanohorns G
2.3. 2D Carbon Nanoallotropes H
2.3.1. Graphene H
2.3.2. Multilayer Graphitic Nanosheets I
2.3.3. Graphene Nanoribbons K
3. Methods for Preparing Carbon Nanostructures K
3.1. 0D Carbon Nanoallotropes K
3.1.1. Fullerenes and Onion-like Carbon K
3.1.2. Carbon Dots L
3.1.3. Graphene Quantum Dots N
3.1.4. Nanodiamonds Q
3.2. 1D Carbon Nanoallotropes R
3.2.1. Carbon Nanotubes and Nanofibers R
3.2.2. Carbon Nanohorns S
3.3. 2D Carbon Nanoallotropes S
3.3.1. Graphene S
3.3.2. Multilayer Graphitic Nanosheets T
3.3.3. Graphene Nanoribbons T
4. Fundamental Physicochemical Properties of Carbon
Nanoallotropes U
4.1. Fundamental Properties of C60 U
4.2. Photoluminescence of Carbon Dots and
Graphene Quantum Dots V
4.3. Fundamental Properties of Nanodiamonds X
4.4. Mechanical Properties of Graphene, Carbon
Nanotubes, and Carbon Nanofibers Y
4.5. Electronic and Related Properties of Graphene,
Graphene Nanoribbons, Carbon
Nanotubes, and Carbon Nanohorns Z
4.6. Magnetic Properties of Carbon Nanoallotropes
AB
4.7. Chemical Reactivity AF
4.7.1. Addition to sp2 Carbon Atoms AG
4.7.2. Reactions at Edges and Defect Sites AG
4.7.3. Noncovalent Surface Interactions AJ
4.7.4. Internal Spaces as Nanoreactors AJ
5. Interconversions of Carbon Nanoallotropes AL
6. Combining Nanoarchitectures To Produce Advanced
Allotropic Hybrids AO
6.1. Fullerene Aggregates AO
6.2. Carbon Clusters AQ
6.3. Assembled Nanostructures Containing Graphene
Quantum Dots AR
6.4. Carbon Nanotubes and 2D Graphene Nanostructures
AS
6.4.1. Transparent Thin Films AT
6.4.2. Conductive Membranes and Papers AT
6.5. Graphenic Hybrid Nanocomposites AU
6.5.1. Graphene−CNT Thin Films AU
6.5.2. Graphene−CNT Membranes AU
6.5.3. Graphene−CNT 3D Hybrids and Pillared
Structures AU
6.6. 3D Graphenic Hybrid Superstructures AW
6.6.1. Aerogels, Nanofoams, and Spongelike
Nanoarchitectures AW
6.6.2. Hollow 3D Microspheres AY
6.7. Nanoreactors Based on Carbon Nanotubes AY
6.8. Nanodiamonds and C60-Functionalized Graphene
and Carbon Nanotubes BA
7. Predicted, Rare, and High-Pressure Carbon Nanoallotrope
Structures BB
8. Summary, Outlook, and Selected Challenging
Applications BJ
Author Information BM
Corresponding Author BM
Notes BM
Biographies BM
Acknowledgments BN
References BN

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附件 1 : Broad_Family_of_Carbon_Nanoallotropes碳同素异形体.pdf

2015-05-28 15:16:10, 6.02 M

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1楼 2015-05-28 15:19:49

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wulishi8

新虫

★★★★★ 五星级,优秀推荐

感谢楼主分享。
但是，这篇review基本是鸡肋。
首先，这么宏大的题目，可以说写上几百本书都没问题，虽然作者费力写了几十页，但是只是区区一角。
其次，作者水平一般，并没有凌驾于研究之上的大局观，见解几乎没有。
最后，唯独落下了很重要的一种碳的同素异形体，碳链！

CR能发这种堆叠文献式的综述，也是醉了。

赞一下

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