Keyphrases
Hollow Porous Structure
66%
Targeted Drug Delivery
66%
Porous Silica Nanoparticles
66%
Clinically Significant
26%
Prostate Tumor
26%
Biomedical Applications
26%
Project Narratives
20%
Ph-controlled Drug Release
20%
Organic Nanoparticles
20%
Mesoporous Silica-based Material
20%
Hybrid Organic-inorganic
13%
Antiproliferative Activity
13%
Funding Mechanisms
13%
Design Flexibility
13%
Reversible Control
13%
Pore Volume
13%
Specific Drug Delivery
13%
Drug Delivery
13%
Tumor Cells
13%
Multiple Functions
13%
Drug Delivery Platform
13%
In Cancer
13%
Cancer Treatment
13%
Drug Release
13%
Large Surface Area
13%
Antitumor Agents
13%
Tumor Model
13%
Delivery System
13%
Heat Shock Protein 90 (Hsp90)
13%
Clinical Potential
13%
Polymer Modified
13%
In Vitro Inhibition
13%
High Biocompatibility
13%
Surface Properties
13%
Mesoporous Structure
13%
Tumor Inhibition
13%
Specific Intent
13%
Nanoparticles
13%
In Vitro Tumor Models
13%
Well-defined
13%
Prostate Cancer Model
13%
Nanotechnology
13%
New Drugs
13%
17-AAG
13%
Novel Nanoparticles
13%
Rapid Progression
13%
Tunable Pore Size
13%
Porous Nanoparticles
13%
Early Application
13%
Pharmacology, Toxicology and Pharmaceutical Science
Targeted Drug Delivery
100%
Silica Nanoparticle
100%
Nanoparticle
80%
Prostate Tumor
40%
Malignant Neoplasm
40%
Neoplasm
40%
Cancer Inhibition
20%
Heat Shock Protein 90
20%
Controlled Drug Release
20%
Drug Release
20%
Prostate Cancer
20%
Tumor Model
20%
Biocompatibility
20%
Mesoporous Silica
20%
Tanespimycin
20%
Cancer Model
20%
Material Science
Tumor
100%
Silica Nanoparticle
100%
Nanoparticle
80%
Biocompatibility
20%
Surface Property
20%
Pore Volume
20%
Mesoporous Silica
20%
Pore Size
20%