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Carbon-based nanomaterial synthesis using nanosecond electrical discharges in immiscible layered liquids: $\textit{n}$-heptane and water
Ahmad Hamdan,
Min Suk Cha
Mechanical Engineering
Physical Sciences and Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
13
Scopus citations
Overview
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Dive into the research topics of 'Carbon-based nanomaterial synthesis using nanosecond electrical discharges in immiscible layered liquids: $\textit{n}$-heptane and water'. Together they form a unique fingerprint.
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Engineering
Electrical Discharge
100%
Heptane
100%
Synthesized Material
100%
Nanosecond
100%
Nanomaterial Synthesis
100%
Nanomaterial
50%
Medical Applications
50%
Fourier Transform
50%
Electric Field
50%
Immiscible Liquid
50%
Crystalline Phase
50%
Field Intensity
50%
Dielectrics
50%
Transmissions
50%
Amorphous Hydrogenated Carbon
50%
Material Science
Permittivity
100%
Nanocrystalline Material
100%
Materials Synthesis
50%
Amorphous Hydrogenated Carbon
50%
Crystalline Material
50%
Liquid Fuels
50%
Chemical Engineering
Nanomaterials
100%
Keyphrases
Treatment Material
50%
Fuel Reformation
50%