IMRE
  • About Us
    • Message From Executive Director
    • Mission, Vision & Core Values
    • Leadership Team
  • Research Departments
    • Advanced Biomaterials
    • Advanced Characterisation and Instrumentation
    • Advanced Optical Technologies
    • Electronic Materials
    • Energy Materials
    • National Quantum Federated Foundry
    • Polymer Composite
    • Sensors & Flexible Electronics
    • Structural Materials
  • News and Highlights
    • Accolades
    • Features
    • Press Releases
    • Publicity Highlights
    • Research Spotlight
  • A*STAR IMRE Events
  • ARAP with A*STAR IMRE
  • Contact Us
  • Home
  • A*STAR IMRE
  • News and Highlights
  • Research Spotlight
  • A*STAR IMRE
  • About Us
    • Message From Executive Director
    • Mission, Vision & Core Values
    • Leadership Team
  • Research Departments
    • Advanced Biomaterials
    • Advanced Characterisation and Instrumentation
    • Advanced Optical Technologies
    • Electronic Materials
    • Energy Materials
    • National Quantum Federated Foundry
    • Polymer Composite
    • Sensors & Flexible Electronics
    • Structural Materials
  • News and Highlights
    • Accolades
    • Features
    • Press Releases
    • Publicity Highlights
    • Research Spotlight
  • A*STAR IMRE Events
  • ARAP with A*STAR IMRE
  • Contact Us
Agency for Science, Technology and Research (A*STAR)
PartnershipsCareersSuppliersContact UsWhistleblowing
  • Report Vulnerability
  • Privacy Statement
  • Terms & Conditions
    • Research Spotlight

    Thermogel: An Emerging Biomaterial for Biomedical Applications

    06 Sep 2021
    • Whatsapp
    • Telegram
    • Facebook
    • Twitter
    • Email
    • Linked In

    Discover the wonder of Thermogel, an emerging technology in biomaterials for biomedical applications. Here's why the Thermogel is a gamechanger.

    For more studies related to Thermogels:

    • The Thermogel Chronicle—From Rational Design of Thermogelling Copolymers to Advanced Thermogel Applications
    • Retinal-detachment repair and vitreous-like-body reformation via a thermogelling polymer endotamponade
    • A Morphable Ionic Electrode Based on Thermogel for Non-Invasive Hairy Plant Electrophysiology
    • PCL-Based Thermogelling Polymer: Molecular Weight Effects on Its Suitability as Vitreous Tamponade
    • Polymeric hydrogels as a vitreous replacement strategy in the eye
    • Zinc diethyldithiocarbamate as a catalyst for synthesising biomedically-relevant thermogelling polyurethanes
    • A new highly transparent injectable PHA-based thermogelling vitreous substitute