Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
The Synthesis of Conical Carbon
View through CrossRef
AbstractConical carbon, specifically multi‐walled carbon nanocones (CNCs) and single‐walled carboncones, is a new class of sp2‐hybridized carbon allotrope, in addition to fullerene, carbon nanotubes (CNTs), and graphene. Characterized by a conical and delocalized aromatic configuration, the conical carbon structure is considered the intermediate structure between planar graphene and open‐cage fullerene. CNCs can be stiffer than CNTs and exhibit intriguing physical and chemical properties owing to their unique hollow conical structure, which make these materials promising for application as field emission sources and scanning probes. The research on conical carbon structures is in its nascent stage, mainly because of the limitations in the synthesis and purification of conical carbons. This review summarizes the significant progress in the synthesis of CNCs and carboncones. Particularly, the synthetic methods, which can be divided into traditional physical‐chemical synthesis methods for multi‐walled CNCs and emerging bottom‐up organic synthesis methods for single‐walled carboncones, are comprehensively discussed. In addition, the advantages and disadvantages of the various synthetic methods as well as the possible formation and growth mechanisms of CNCs and carboncones are discussed. Finally, some outlooks on the potential solutions to the synthesis of single‐walled carboncones with uniform apex angles are presented.
Title: The Synthesis of Conical Carbon
Description:
AbstractConical carbon, specifically multi‐walled carbon nanocones (CNCs) and single‐walled carboncones, is a new class of sp2‐hybridized carbon allotrope, in addition to fullerene, carbon nanotubes (CNTs), and graphene.
Characterized by a conical and delocalized aromatic configuration, the conical carbon structure is considered the intermediate structure between planar graphene and open‐cage fullerene.
CNCs can be stiffer than CNTs and exhibit intriguing physical and chemical properties owing to their unique hollow conical structure, which make these materials promising for application as field emission sources and scanning probes.
The research on conical carbon structures is in its nascent stage, mainly because of the limitations in the synthesis and purification of conical carbons.
This review summarizes the significant progress in the synthesis of CNCs and carboncones.
Particularly, the synthetic methods, which can be divided into traditional physical‐chemical synthesis methods for multi‐walled CNCs and emerging bottom‐up organic synthesis methods for single‐walled carboncones, are comprehensively discussed.
In addition, the advantages and disadvantages of the various synthetic methods as well as the possible formation and growth mechanisms of CNCs and carboncones are discussed.
Finally, some outlooks on the potential solutions to the synthesis of single‐walled carboncones with uniform apex angles are presented.
Related Results
Experimental Study on Characteristics of Conical Spray and Combustion for Medium Speed D.I. Diesel Engine
Experimental Study on Characteristics of Conical Spray and Combustion for Medium Speed D.I. Diesel Engine
<div class="htmlview paragraph">This paper inverstigates a new way of conical spray for medium speed D. I. diesel engine, with which three different construction injectors we...
Carbon export in the land-to-ocean aquatic continuum (LOAC) of China
Carbon export in the land-to-ocean aquatic continuum (LOAC) of China
It has long been recognized that terrestrial ecosystems are not isolated from other earth systems with all the absorbed carbon being permanently sequestered on land. Inland water s...
Spatial differentiation and functional zoning of carbon budget: evidence from Jiangxi Province
Spatial differentiation and functional zoning of carbon budget: evidence from Jiangxi Province
Regional carbon budget and compensation are one of the current research hotspots, which is of great practical significance for dealing with climate change and promoting the coordin...
Assessing the Forest Management Impact on Forest Carbon Dynamics in Romanian Forests
Assessing the Forest Management Impact on Forest Carbon Dynamics in Romanian Forests
Forests play a crucial role in the EU's strategy for decarbonisation and in achieving neutrality targets, primarily through their capacity for carbon sequestration (carbon stock ch...
CONSTRUCTION OF LOW-CARBON DEVELOPMENT INDEX SYSTEM IN THE ELECTRIC POWER CONSTRUCTION INDUSTRY
CONSTRUCTION OF LOW-CARBON DEVELOPMENT INDEX SYSTEM IN THE ELECTRIC POWER CONSTRUCTION INDUSTRY
Climate change has become a global challenge, and China plays a crucial role in addressing this issue, particularly with significant challenges in carbon reduction tasks. The impac...
Synergy effect of the research and educational center - unesco chair "environmental dynamics and global climate change" as a driver of yugra educational environment
Synergy effect of the research and educational center - unesco chair "environmental dynamics and global climate change" as a driver of yugra educational environment
The Strategy of socio-economic development of the Russian Federation with low greenhouse gas emissions until 2050 sets the task of including individual subjects of the Russian Fede...
Epicontinental seas as efficient carbon sinks: proto-Paratethys & West Siberian seas during the PETM
Epicontinental seas as efficient carbon sinks: proto-Paratethys & West Siberian seas during the PETM
<p>Removal of carbon on geological timescales is generally assumed to be governed by the relative strength of silicate weathering and organic carbon burial. For past ...
Counting (on) Blue Carbon - Challenges and Ways forward for carbon accounting of ecosystem-based carbon removal in marine environments
Counting (on) Blue Carbon - Challenges and Ways forward for carbon accounting of ecosystem-based carbon removal in marine environments
The latest IPCC assessment report highlights once more the need for negative emissions via carbon dioxide removal (CDR) measures to reach ambitious mitigation goals. In particular ...