Publications

The study investigates the structure–property relationship by fine-tuning the structure of AA-PEUU, including the amino acid type, hydrocarbons, the ratio of functional building blocks, and PEGylation, to identify the nanoparticle candidate with optimized delivery performances. Read more

This study develops a hemostatic powder from tricomponent GTP coacervates consisting of gelatin, tannic acid (TA), and poly(vinyl alcohol) (PVA). Read more

This study contributes to the conversion of lignin into multifunctional composites with potential antioxidant and antimicrobial applications. Read more

Antibacterial wound dressing is essential for inflammation control and accelerated wound healing. This study investigates polyzwitterion-functionalized silver nanoparticles (AgNPs) with enhanced antibacterial performance in an injectable wound dressing hydrogel. Read more

Zwitterionic hydrogels excel in flexibility, strength, and sensory sensitivity for wearable sensors. Their superior adhesion supports applications in robotics and prosthetics, providing reliable real-time mechanotransduction detection without additional adhesives. Read more

MXene hydrogels offer exceptional toughness and sensory performance, ideal for wearable sensors in harsh environments. With antibacterial properties, they are suited for potential medical applications, providing reliable dual-mode sensing and wireless communication. Read more

This study introduces a method to embed chitosan nanoparticles in bacterial nanocellulose, enhancing antibacterial properties and biocompatibility. Utilizing ionic gelation, the composite supports Schwann cell growth, showcasing its potential for clinical biomedical applications. Read more

This study explores integrating hypoxia-activated chemotherapy with photodynamic therapy via ROS-responsive drug carriers. The method enhances drug release, showing significant tumor treatment efficacy, indicating promising advancements in cancer therapy approaches. Read more

This study explores alginate and bacterial nanocellulose composites for wound healing. Using a vacuum suction method, composites exhibit enhanced antibacterial activity and mechanical strength, promoting faster healing. These findings underscore potential advancements in smart biomedical dressings. Read more

This study presents a novel nanoformulation for pancreatic cancer, co-delivering CDK4/6 and autophagy inhibitors. Methodology demonstrates enhanced intratumoral drug accumulation, yielding superior tumor shrinkage and synergistic efficacy, suggesting significant potential for improved cancer therapies. Read more