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精準矽烷化:新穎功能性氮矽三環自組裝分子之材料合成、表面接枝機制與生物感測應用(2/3)
Huang, Chun-Jen
(PI)
化學工程與材料工程學系
概覽
指紋
研究成果
(3)
指紋
探索此專案觸及的研究主題。這些標籤是根據基礎獎勵/補助款而產生。共同形成了獨特的指紋。
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Keyphrases
Zwitterion
100%
Amphiphilic Polymer
81%
Deferoxamine
72%
Releasing Drug
72%
Triggered Release
72%
Double-network Hydrogel
72%
Foreign Body Reaction
72%
Metal Coordination
72%
Ligand-free
72%
Hemofiltration
72%
Thrombus
72%
Circulating Tumor Cells
72%
Cell-based
72%
Toughness
72%
Bio-inspired
72%
Drug Delivery
72%
Size Selectivity
72%
Breast Cancer Cells
72%
Nanoscale Coordination Polymers
54%
Curcumin
54%
Biocompatibility
54%
Fe3+
54%
Antifouling
50%
Molecular Diagnostics
36%
Silatrane
36%
Silanization
36%
Grafting Method
36%
Hydrophobic Drugs
36%
Anticancer Drug Delivery
36%
Triggered Drug Release
36%
Silica Microspheres
29%
Colorectal Cancer Cells
29%
Acrylamide
27%
Silane
23%
Sulfobetaine
23%
Organosilatrane
18%
Organosilicon
18%
Surface Chemistry
18%
Reversible Interaction
18%
Poly(2-methacryloyloxyethyl phosphorylcholine)
18%
Reversible Addition-fragmentation Chain Transfer Polymerization
18%
Enhanced Retention
18%
Curcumin Nanoparticles
18%
Curcumin Release
18%
Enhanced Permeability
18%
Permeability Effect
18%
Polysulfobetaine
18%
Nanoparticles
18%
Natural Water
18%
Particle Loading
18%
Acrylate
18%
FDA-approved Drugs
18%
Chelating Agent
18%
Low pH
18%
Surface Particle
18%
Water-soluble
18%
Retention Effect
18%
Cell Membrane
18%
Cell Viability
18%
Tunable Size
18%
Metal Cations
18%
Encapsulation Efficiency
18%
Diblock Copolymer
18%
Polyphenols
18%
Hydrodynamic Radius
18%
Drug Release
18%
Surface Composition
18%
Tunable Composition
18%
Cell Apoptosis
18%
Poly-L-lysine
18%
Release Rate
18%
Loading Capacity
18%
Particle Surface
18%
Molar Ratio
18%
Tumor Site
18%
Iron(III) Chloride
18%
Induced Apoptosis
18%
Drug Loading
18%
Particle Size
18%
Oil-in-water Emulsion
18%
Amino Acids
18%
Human Triple Negative Breast Cancer
18%
Triple-negative Breast Cancer Cells
18%
Operational Factors
14%
Clogging
14%
Prolonged Surgery
14%
White Blood Cells
14%
Sheep's Blood
14%
Operative Time
14%
Size Control
14%
Fouling
14%
Retention Rate
14%
Precision Medicine
14%
Viable Cells
14%
Removal Rate
14%
Whole Blood
14%
Red Blood
14%
Cross-sectional Area
14%
Culture in Vitro
14%
Performance Optimization
14%
Large Volume
14%
Surface Wettability
14%
Red Blood Cells
14%
Organosilicon Coatings
9%
Chemically Stable
9%
Surface Function
9%
Thick Coating
9%
Post-synthesis
9%
Assembling Process
9%
Grafting Density
9%
Chemical Stability
9%
Inhomogeneous Coating
9%
Chemistry Industry
9%
Dative Bond
9%
Molecular Orientation
9%
Molecular Detection
9%
Unique Structure
9%
Silicon-based
9%
Mercapto
9%
Hydrolysis
9%
BioFET
9%
Field-effect Transistor Biosensor
9%
Biomaterial Science
9%
Nanomaterials
9%
N-Si
9%
Biointerface
9%
Detection Performance
9%
Molecular Assembly
9%
Carboxylate Group
9%
High-level Talents
9%
Condensation
9%
Surface Science
9%
Scientific Potential
9%
Nanoscience
9%
Manufacturing Process
9%
Sensor Surface
9%
Transannular
9%
Amines
9%
Polysiloxane
9%
Moisture
9%
Nanodevices
9%
Self-assembled Materials
9%
Surface Characteristics
9%
Complex Media
9%
Capsule Formation
9%
Double Network Gel
9%
Thrombus Formation
9%
Acrylamide Hydrogels
9%
Tough Hydrogels
9%
Load-bearing Implants
9%
Human Blood
9%
In Vitro Study
9%
Cytotoxicity
9%
Enhanced Mechanical Properties
9%
Alkaline Solution
9%
Acidic Solution
9%
Physiological Condition
9%
Polyelectrolyte
9%
Biofouling
9%
Mechanical Strength
9%
Inflammatory Response
9%
Biomedical Implants
9%
UV Radiation
9%
Engineering
Microsphere
72%
Release Drug
72%
Drug Delivery
72%
Nanoscale
54%
Silanization
36%
Colorectal
36%
Hydrophobic
36%
Nanoparticle
36%
Phase Composition
36%
Silicon Dioxide
36%
Potential Application
18%
Surface Wettability
18%
Leukocyte
18%
Reversible Addition-Fragmentation Chain Transfer Polymerization
18%
Flow Rate
18%
Fouling
18%
Larger Quantity
18%
Erythrocyte
18%
Removal Rate
18%
Operational System
18%
Molar Ratio
18%
Natural Water
18%
Hydrodynamics
18%
Particle Surface
18%
Flow Velocity
18%
Manufacturing Process
9%
FET Biosensor
9%
Field Effect Transistor
9%
Biointerface
9%
Nanomaterial
9%
Sensor Surface
9%
Detection Performance
9%
Biosensor
9%
Molecular Orientation
9%
Material Science
Curcumin
72%
Hydrogel
72%
Surface (Surface Science)
50%
Nanoparticle
29%
Biocompatibility
29%
Hydrodynamics
14%
Amino Acids
14%
Reversible Addition-Fragmentation Chain Transfer Polymerization
14%
Cell Membrane
14%
Surface Structure
14%
Polyphenol
14%
Copolymer
14%
Complexation
14%
Phase Composition
14%
Tumor
14%
Field Effect Transistor
8%
Strength of Materials
7%
Polyelectrolyte
7%