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Water wicking in phosphorene-based nanochannels: Effect of surface texture
Chien Yu Huang
, Hsin Yu Chang
,
Heng Kwong Tsao
, Yu Jane Sheng
Department of Chemical and Materials Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
3
Scopus citations
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Dive into the research topics of 'Water wicking in phosphorene-based nanochannels: Effect of surface texture'. Together they form a unique fingerprint.
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Keyphrases
Surface Texture
100%
Nanochannel
100%
Phosphorene
100%
Water Wicking
100%
Channel Width
60%
Imbibition Rate
60%
Internal Energy
40%
Nanoslit
40%
Graphene-based Materials
20%
Two Dimensional
20%
Power Law
20%
Molecular Dynamics
20%
Surface Roughness
20%
Young-Laplace Equation
20%
Large Channel
20%
Wetting Behavior
20%
Wetted Area
20%
Water Dynamics
20%
Rate of Change
20%
Zigzag
20%
Partial Wetting
20%
Penetration Length
20%
Armchair
20%
Laplace Pressure
20%
Equilibrium Contact Angle
20%
Imbibition Dynamics
20%
Lucas-Washburn Equation
20%
Water Nanodroplet
20%
Water Plug
20%
N-layer
20%
Engineering
Internal Energy
100%
Applicability
50%
Nanoscale
50%
Two Dimensional
50%
Graphene
50%
Change Rate
50%
Laplace Pressure
50%
Equilibrium Contact Angle
50%
Laplace Equation
50%
Lucas-Washburn Equation
50%
Material Science
Graphene
100%
Surface Roughness
100%
Surface Texture
100%
Contact Angle
100%