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Carbon science in 2016: Status, challenges and perspectives
Jin Zhang
,
Mauricio Terrones
, Chong Rae Park
, Rahul Mukherjee
, Marc Monthioux
, Nikhil Koratkar
, Yern Seung Kim
, Robert Hurt
, Elzbieta Frackowiak
, Toshiaki Enoki
, Yuan Chen
, Yongsheng Chen
, Alberto Bianco
Physics
Materials Research Institute (MRI)
Research output
:
Contribution to journal
›
Review article
›
peer-review
329
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Scopus citations
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Keyphrases
Nanotubes
100%
Carbon Science
100%
Fuel Cell
66%
High Purity
66%
Chemical Vapor Deposition
33%
Multi-walled Carbon Nanotubes (MWCNTs)
33%
Energy Saving
33%
Thermal Process
33%
Cell-to-cell
33%
Helicity
33%
Armchair
33%
Hydrogen Production
33%
Graphene Nanoribbon
33%
Electrolytic Cell
33%
Solar Cell
33%
Growth Techniques
33%
Transparent Conductor
33%
Separation Techniques
33%
Catalyst Support
33%
Bipolar Plate
33%
Scalable Fabrication
33%
Growth Theory
33%
Lightweight Materials
33%
Characteristic Diameter
33%
Interface Thermodynamics
33%
Aromatic Molecules
33%
Innovative Growth
33%
Energy Transformation
33%
Single chirality
33%
New Carbon Materials
33%
Process Alternatives
33%
Battery-type Supercapacitor
33%
Polymerization-induced Phase Separation
33%
Optical Isomer
33%
Commercial Chemicals
33%
Catalyst Interface
33%
3D Solids
33%
Carbon Dioxide Reduction
33%
Chromatograph
33%
Chirality Selectivity
33%
Alternative Energy Technologies
33%
Kinetic Growth
33%
Material Science
Nanotube
100%
Chirality
66%
Chemical Vapor Deposition
33%
Battery (Electrochemical Energy Engineering)
33%
Graphene
33%
Nanoribbon
33%
Transparent Conducting Film
33%
Carbon Dioxide
33%
Polymerization
33%
Aircraft
33%
Solar Cell
33%
Catalyst Support
33%
Supercapacitors
33%
Interface Thermodynamics
33%
Chemical Engineering
Nanotube
100%
Vapor Deposition
33%
Chemical Vapor Deposition
33%
Graphene
33%
Polymerization
33%
Phase Separation
33%
Hydrogen Production
33%
Carbon Dioxide Reduction
33%