Dr. Jae Sung Yoon, Principal Researcher at the Nano-lithography & Manufacturing Research Center within the Nano-convergence Manufacturing Research Division at the Korea Institute of Machinery and Materials, affiliated with the Ministry of Science and ICT, and Ph.D. candidate Nguyen Hoang Minh from the UST-KIMM School led a research team that successfully created an advanced film-type strain sensor incorporating nano-fabrication technology, according to a study published in ACS Applied Nano Materials.
Researchers have developed a 3D plasmonic hexaplex (3D-PHP) sensor integrated with a saliva collection tube for non-invasive lung cancer screening.
An electrochemical biosensor using a bacterial cellulose-polypyrrole composite integrated with bacteriophages detects Salmonella typhimurium in food with extreme sensitivity.
A recent study published in the Proceedings of the ACM on Interactive, Mobile, Wearable, and Ubiquitous Technologies introduces two new types of on-skin electronics that can be built and customized directly on the body. These innovative technologies hold potential for applications in biometric sensing, medical monitoring, interactive prosthetic makeup, and other fields.
A novel lab-on-a-chip device combines micro-electrodialysis and graphene sensors to quickly and accurately measure sodium ions in breast milk. This compact, cost-effective solution aids in monitoring maternal and infant health, particularly for detecting subclinical mastitis.
A novel biosensor platform for detecting lung cancer using urine samples showed high sensitivity and specificity in clinical settings. This non-invasive method could enhance early detection and guide treatment decisions, serving as a promising alternative to invasive diagnostics.
This research uncovers HKDC1’s crucial role in regulating cancer metabolism, particularly in glycolysis and fatty acid oxidation.
This review highlights advances in tear-based wearable biosensors, offering non-invasive health monitoring solutions. These sensors detect biomarkers in tear fluid, providing continuous data for personalized healthcare. However, challenges like biofouling and data variability need to be addressed for broader adoption.
This study presents a noninvasive biosensor that measures glucose levels through sweat, providing an alternative to traditional blood testing for diabetes management. With stable calibration and personalized monitoring, this innovation enhances patient comfort and glycemic control over extended periods.
The START platform integrates riboswitches and synthetic RNA regulators to provide ligand-responsive gene regulation with Boolean logic capabilities. Its dynamic and modular design enables precise biosensing applications, advancing synthetic biology with customizable genetic circuits for complex cellular processes.
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