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Volumn 4, Issue 3, 2016, Pages 418-429
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The next generation cell-penetrating peptide and carbon dot conjugated nano-liposome for transdermal delivery of curcumin
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Author keywords
[No Author keywords available]
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Indexed keywords
BIOCOMPATIBILITY;
CARBON;
CELLS;
CONTROLLED DRUG DELIVERY;
COST EFFECTIVENESS;
CYTOLOGY;
ENCAPSULATION;
FLUORESCENCE IMAGING;
PEPTIDES;
TARGETED DRUG DELIVERY;
BI-LAYER STRUCTURE;
CELL-PENETRATING PEPTIDE;
ENCAPSULATION EFFICIENCY;
HIGH PENETRATIONS;
MICROSCOPIC ANALYSIS;
PENETRATION ABILITY;
TRANSDERMAL DELIVERY;
TRANSDERMAL DRUG DELIVERY;
LIPOSOMES;
CARBON;
CURCUMIN;
LIPOSOME;
NANOCARRIER;
NANOLIPOSOME;
POLYARGININE;
UNCLASSIFIED DRUG;
BIOMATERIAL;
CELL PENETRATING PEPTIDE;
PEPTIDE;
ANIMAL EXPERIMENT;
ANIMAL TISSUE;
ARTICLE;
CONFOCAL MICROSCOPY;
CONTROLLED STUDY;
DRUG RELEASE;
DRUG SYNTHESIS;
ENCAPSULATION;
FEMALE;
FLUORESCENCE IMAGING;
FLUORESCENCE MICROSCOPY;
IN VITRO STUDY;
IN VIVO STUDY;
MCF 7 CELL LINE;
MOUSE;
MTT ASSAY;
NONHUMAN;
PRIORITY JOURNAL;
ROOM TEMPERATURE;
SKIN PENETRATION;
CHEMISTRY;
DRUG DELIVERY SYSTEM;
DRUG EFFECTS;
HUMAN;
MCF-7 CELL LINE;
METABOLISM;
NANOTECHNOLOGY;
PROCEDURES;
SKIN ABSORPTION;
BIOCOMPATIBLE MATERIALS;
CELL-PENETRATING PEPTIDES;
CURCUMIN;
DRUG DELIVERY SYSTEMS;
HUMANS;
LIPOSOMES;
MCF-7 CELLS;
NANOTECHNOLOGY;
PEPTIDES;
SKIN ABSORPTION;
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EID: 84959167040
PISSN: 20474830
EISSN: 20474849
Source Type: Journal
DOI: 10.1039/c5bm00433k Document Type: TB |
Times cited : (47)
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References (38)
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