➀ The research explores the development of silver-coated laser-induced graphene (LIG) strain sensors to overcome limitations of traditional sensors; ➁ The sensors demonstrate enhanced sensitivity and reliability compared to uncoated sensors; ➂ The integration of silver nanoparticles improves the electrodynamic properties, making them suitable for biomedical monitoring and other applications.
Related Articles
- Bellezza process could replace copper with graphene in ICs4 months ago
- Intelligent Wearable: Precise Health Measurements Directly in the Ear4 months ago
- A Lighter, Smarter Magnetoreceptive Electronic Skin4 months ago
- Enhanced Printable Graphene Inks Using Polypropylene Carbonate for Flexible Electronics4 months ago
- Empa's New 'CarboQuant' Lab Peers into Carbon's (Quantum-) World5 months ago
- Fundamental Research for the Hydrogen Economy5 months ago
- Sensorics as a Game-Changer: From Disaster Protection to Medical Technology5 months ago
- Sensors for Safe Use of Hydrogen5 months ago
- An Extraordinary Employee: Humanoid Robot TALOS at TU Darmstadt for Research into Human-like Learning5 months ago
- X-Fab runs Attosemi 1.8V I-fuse S3 OTP5 months ago