<p>➀ Researchers have developed a novel caffeine sensor using zinc-doped tin oxide nanoparticles as an electrocatalyst.</p><p>➁ The sensor exhibits exceptional sensitivity and selectivity, with potential applications in food safety, healthcare, and environmental monitoring.</p><p>➂ The sensor is based on Zn-SnO₂ nanoparticles, which are coated onto a gold electrode and show high sensitivity and selectivity in detecting caffeine.</p>
Related Articles
- Loughborough University Physicists Create ‘The World’s Smallest Violin’ Using Nanotechnology2 months ago
- Startup aims to 3D print chips and cut production costs by 90% — nanoprinter operates at wafer scale4 months ago
- Thin Film May Help Make Light Night-Vision Glasses4 months ago
- Self-Aligned Carbon Nanotube Phototransistors for Infrared Detection4 months ago
- Smart and Compact Sensors with Edge-AI4 months ago
- IHP and Nagoya University, Japan, Jointly Develop Next-Generation Semiconductor Technologies4 months ago
- IHP and the University of Nagoya, Japan, Collaboratively Develop Next-Generation Semiconductor Technologies4 months ago
- IHP and University of Nagoya, Japan, Collaborate on Next-Generation Semiconductor Technologies4 months ago
- Advancing Ultra-Sensitive Health Monitoring5 months ago
- ATLANT 3D Secures $15 M Series A+ as Demand Grows for its Atomic Layer Processing Technology5 months ago