Keyphrases
Effective Treatment
100%
Composite Membrane
100%
Wound Dressing
100%
Superhydrophobic
100%
Hierarchical Fibers
100%
Skin Regeneration
50%
Polylactide
50%
Composite Fibrous Membrane
50%
Burn Treatment
50%
Burn Wound Care
50%
Physicochemical Properties
25%
Microbes
25%
Simplified Preparation
25%
Biological Properties
25%
Fibroblasts
25%
Adhesion
25%
Polyethylene Glycol
25%
Preparation Method
25%
Mechanical Properties
25%
Antibacterial Activity
25%
Controlled Release
25%
Mechanical Strength
25%
Wound Healing
25%
Reconstitution
25%
Release Profile
25%
Skin Tissue
25%
High Biocompatibility
25%
Biomimetic
25%
Silicone Membrane
25%
Electrospray
25%
Promising Strategies
25%
Conventional Products
25%
Antimicrobial Peptides
25%
Electrospinning
25%
Electrospun
25%
Superhydrophobic Surface
25%
Antibacterial Ability
25%
Polyvinylpyrrolidone
25%
Bioactive Compounds
25%
PEG-PLA
25%
Micro-nano Structure
25%
Rat Model
25%
Mass Ratio
25%
Hierarchical Surface
25%
Superhydrophobic Property
25%
Clinical Requirements
25%
Membrane Design
25%
In Vitro Biocompatibility
25%
Multifunctional Dressing
25%
Composite Dressing
25%
Faster Healing
25%
Core-shell Fibers
25%
Exogenous Bacteria
25%
Bioactive Drugs
25%
Lotus Leaf
25%
Electrospun Membrane
25%
Burn Wound Healing
25%
Wound Exudate
25%
Burned Skin
25%
Lotus-leaf-like
25%
Engineering
Electrospun
100%
Physicochemical Property
50%
Nanomaterial
50%
Release Profile
50%
Lead Model
50%
Core-Shell
50%
Biomimetics
50%
Controlled Release
50%
Research Work
50%
Electrospinning
50%
Biological Property
50%
Loaded Fiber
50%
Mass Ratio
50%
Good Biocompatibility
50%
Rendered Structure
50%
Sterile Product
50%
Structured Surface
50%
Bioactive Agent
50%
Multifunctionality
50%
Material Science
Superhydrophobic
100%
Composite Membrane
100%
Composite Material
100%
Surface (Surface Science)
50%
Polyethylene Glycol
50%
Polylactide
50%
Fibrous Membrane
50%
Fibroblast
25%
Biocompatibility
25%
Nanostructure
25%
Polysiloxane
25%
Electrospinning
25%
Antimicrobial Peptide
25%
Pharmacology, Toxicology and Pharmaceutical Science
Burn
100%
Superhydrophobic
100%
Wound Dressings
57%
Povidone
42%
Wound
28%
Wound Healing
28%
Polylactide
28%
Lotus (Genus)
28%
Microorganism
14%
Macrogol
14%
Macrogol Derivative
14%
Antiinfective Agent
14%
Antibacterial Activity
14%
Biocompatibility
14%
Polyethylene Glycol
14%
Polypeptide Antibiotic Agent
14%
Controlled Release
14%
Nanomaterial
14%
Rat Model
14%
Bioactive Drug
14%
Medicine and Dentistry
Thermal Burn
100%
Wound Dressings
57%
Povidone
42%
Wound
28%
Wound Healing
28%
Regeneration
28%
Wound Care
28%
Polylactide
28%
Antiinfective Agent
14%
In Vitro
14%
Fibroblast
14%
Biocompatibility
14%
Controlled Release
14%
Macrogol
14%
Antibacterial Activity
14%
Biomimetics
14%
Polypeptide Antibiotic Agent
14%
Macrogol Derivative
14%
Polyethylene Glycol
14%
Nanomaterial
14%
Bioactive Drug
14%
Chemical Engineering
Polyethylene Glycol
100%
Biomimetics
50%
Nanostructure
50%