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Gas chromatography on self-assembled, single-walled carbon nanotubes
Mahesh Karwa,
Somenath Mitra
Chemistry and Environmental Science
Otto H. York Center for Environmental Engineering and Science
Research output
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Contribution to journal
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Article
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peer-review
91
Scopus citations
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Dive into the research topics of 'Gas chromatography on self-assembled, single-walled carbon nanotubes'. Together they form a unique fingerprint.
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Keyphrases
Multi-walled Carbon Nanotubes (MWCNTs)
100%
Gas Chromatography
100%
High Temperature
50%
Sorbent
50%
High Capacity
25%
High-resolution
25%
High Performance
25%
High Surface Area
25%
Carbon Nanotubes
25%
Cobalt
25%
Unique Properties
25%
Organic Compounds
25%
Open-tubular
25%
Ethanol
25%
Silica
25%
Molybdenum
25%
Stationary Phase
25%
Chromatographic Separation
25%
Sorbate
25%
Capillary Tube
25%
Column Efficiency
25%
McReynolds Constants
25%
Gas Chromatographic Analysis
25%
Catalytic Chemical Vapor Deposition
25%
Carbopack X
25%
Capacity Factor
25%
Single-walled Carbon Nanotube Film
25%
Packed Column
25%
Nanostructured Carbon
25%
Isosteric Heat of Adsorption
25%
Carbon Sorbents
25%
Chemical Vapor Deposition Processes
25%
Theoretical Plates
25%
Large Aspect Ratio
25%
Engineering
Gas Chromatography
100%
Single-Walled Carbon Nanotube
100%
High Resolution
40%
Adsorption
20%
Comparable Result
20%
High Surface Area
20%
Carbon Nanotube
20%
Chemical Vapor Deposition
20%
Vapor Deposition
20%
Stationary Phase
20%
Aspect Ratio
20%
Chromatography
20%
Deposition Process
20%
Capillary Tubing
20%
Theoretical Plate
20%
Capacity Factor
20%
Material Science
Carbon Nanotube
100%
Gas Chromatography
100%
Sorbent
50%
Film
16%
Cobalt
16%
Silicon Dioxide
16%
Molybdenum
16%
Chemical Vapor Deposition
16%
Chromatography
16%
Vapor Phase Deposition
16%
Heat of Adsorption
16%
Chemical Engineering
Carbon Nanotube
100%
Gas Chromatography
100%
Adsorption
16%
Chemical Vapor Deposition
16%
Vapor Deposition
16%
Chromatography
16%