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Improved synthesis of carbon-clad silica stationary phases
Imad A. Haidar Ahmad
, Peter W. Carr
Chemistry (Twin Cities)
Research output
:
Contribution to journal
›
Article
›
peer-review
3
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Scopus citations
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Dive into the research topics of 'Improved synthesis of carbon-clad silica stationary phases'. Together they form a unique fingerprint.
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Keyphrases
Improved Synthesis
100%
Silica Stationary Phase
100%
Al(III)
100%
Silica
66%
Chemical Vapor Deposition
66%
Deposition Chamber
33%
Carbon Source
33%
Chemical Vapor Deposition Processes
33%
Hydrogen Gas
33%
Fine Particles
33%
Elemental Carbon
33%
Hexane
33%
Homogeneous Solution
33%
Nitrogen Gas
33%
Pore Blockage
33%
Oxygen Incorporation
33%
Packing Process
33%
Retentivity
33%
Carbon Clad Zirconia
33%
Column Packing
33%
Flotation
33%
Peak Symmetry
33%
Chemical Vapor Deposition Method
33%
Polar Sites
33%
Activated Silica
33%
Cladding Process
33%
Engineering
Chemical Vapor Deposition
100%
Vapor Deposition
100%
Stationary Phase
100%
Silicon Dioxide
100%
Monolayers
50%
Hydrogen Gas
25%
Peak Efficiency
25%
Flotation
25%
Vapor Deposition Method
25%
Deposition Process
25%
Elemental Carbon
25%
Cladding Process
25%
Material Science
Silicon Dioxide
100%
Chemical Vapor Deposition
100%
Monolayers
50%
Surface (Surface Science)
50%
Zirconia
25%
Fine Particle
25%
Vapor Phase Deposition
25%
Chemical Engineering
Vapor Deposition
100%
Chemical Vapor Deposition
100%
Hexane
25%
Flotation
25%
Chemical Element
25%
Fine Particles
25%