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Carbon Nanotube Membranes for Programmed Transdermal Drug Delivery
Ji Wu
, Kalpana S. Paudel
, Audra L. Stinchcomb
, Bruce J. Hinds
Biochemistry, Chemistry & Physics
University of Kentucky
Research output
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Dive into the research topics of 'Carbon Nanotube Membranes for Programmed Transdermal Drug Delivery'. Together they form a unique fingerprint.
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Engineering
Mols
100%
Carbon Nanotube
100%
Drug Delivery
100%
Human Skin
100%
Electroosmotic Flow
100%
Delivery Rate
100%
Conductive
50%
Charge Density
50%
Dye Molecule
50%
Field Gradient
50%
Active Element
50%
Fold Increase
50%
Fickian Diffusion
50%
Conventional Membrane Material
50%
Pumping Power
50%
Gatekeeper
50%
Electric Field
50%
Boundary Condition
50%
Ideal Fluid
50%
Medicine and Dentistry
Transdermal
100%
Transdermal Drug Administration
100%
Carbon Nanotube
100%
In Vitro
50%
Withdrawal Syndrome
50%
Clonidine
50%
Electrochemical Analysis
50%
Nicotine Withdrawal
50%
Electroporation
50%
Chemical Engineering
Carbon Nanotube Membrane
100%
Anionic Dye
100%
Carbon Nanotube
50%
Material Science
Carbon Nanotube
100%
Density
50%
Electrochemical Reaction
50%