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Particulate nanomedicines
S.M. Moghimi, T. Kissel
University of Brighton
Research output
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Contribution to journal
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peer-review
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Keyphrases
Particulate
100%
Nanomedicine
100%
Quantum Dots
100%
Luminesce
33%
Bioluminescence Resonance Energy Transfer
33%
Conduction Band
22%
Disease Treatment
22%
Fluorescent Protein
22%
Disease Diagnosis
22%
Electronic Energy Levels
22%
Band Gap
22%
Valance Band
22%
Richard Feynman
22%
Lung Tissue
11%
Core Size
11%
Water-soluble
11%
Biomolecules
11%
Biomedical Applications
11%
Lymph Node
11%
Energy Transfer Phenomenon
11%
Nanotechnology
11%
Optical Response
11%
Thermoelectric Properties
11%
Injected Water
11%
Novel Nanomaterials
11%
Close Proximity
11%
Multiplexed Imaging
11%
Cell Trafficking
11%
Semiconductor Quantum Dots
11%
Reflectance Imaging
11%
Sentinel Lymph Node
11%
Thermal Emission
11%
Advanced Drug Delivery
11%
Particulate Material
11%
Light-emitting
11%
Lymph Flow
11%
Small Clusters
11%
Chemical Properties
11%
Novel Nanocomposites
11%
Disease Monitoring
11%
Multifunctional Platform
11%
Patient Table
11%
Photostability
11%
Transferred Energy
11%
Bright Green
11%
Type-II Quantum Dots
11%
Electron-hole Pair
11%
External Excitation
11%
Luciferase
11%
Biological Labeling
11%
Emission Properties
11%
Modern Medicine
11%
Gallium Arsenide
11%
High Energy
11%
Thermal Light
11%
Renilla Reniformis
11%
Light Emission
11%
Magnetic Emission
11%
In Vivo Imaging
11%
Single Electron
11%
California Institute of Technology
11%
Molecular Discovery
11%
Quantum Dot Conjugate
11%
Physical Properties
11%
Size-and-shape
11%
Near-infrared
11%
Excess Energy
11%
Nanometre
11%
Engineering
Nanomedicine
100%
Quantum Dot
100%
Resonance Energy
27%
Fluorescent Protein
18%
Nodes
18%
Conduction Band
18%
Band Gap
18%
Core Size
9%
Drug Delivery
9%
Biomedical Application
9%
Nanometre
9%
Semiconductor Quantum Dot
9%
Nanoscale
9%
Injected Water
9%
Close Proximity
9%
Excess Energy
9%
Emit Light
9%
Emitting Light
9%
Biomolecule
9%
Gallium Arsenide
9%
Single Electron
9%
Nanocomposite
9%
Deep Level
9%
Hole Pair
9%
Nanomaterial
9%
Particulate Material
9%
Upper Limit
9%
Paramount Importance
9%
Reflectance
9%
Light Emission
9%
Chemistry
Nanomedicine
100%
Quantum Dot
100%
Fluorescence Resonance Energy Transfer
25%
Bioluminescence
25%
Conduction Band
16%
Valance Band
16%
Band Gap
16%
Electron Energy Level
16%
Gallium
8%
Silicon
8%
Water Soluble
8%
Nanocomposite
8%
Energy Transfer
8%
Electron-Hole Pair
8%
Nanomaterial
8%
Chemical Engineering
Nanomedicine
100%
Gallium Arsenide
100%
Material Science
Quantum Dot
100%
Bioluminescence
25%
Gallium Arsenide
8%
Silicon
8%
Chemical Property
8%
Physical Property
8%
Nanostructured Material
8%
Nanocomposite
8%