How can we quickly identify dangerous bacteria in food before they cause irreversible harm? In an era where hours can mean the difference between effective treatment and an escalating infection, the ability to rapidly and accurately detect pathogenic bacteria has become a critical challenge in modern diagnostics.
By Ankit Singh
10 Feb 2026
Explore advanced sensing tech for pollution detection: PM2.5 air sensors, multi-sensor water monitoring, and data-driven methods that pinpoint contamination fast.
By Samudrapom Dam
9 Feb 2026
Explore why needle-free diagnostics matter and how noninvasive technologies like wearable biosensors, microneedles, and alternative biofluids are transforming healthcare access, monitoring, and early disease detection.
By Ankit Singh
30 Jan 2026
LiDAR is a core sensing technology behind autonomous vehicles, providing precise 3D measurements that support perception, planning, and safe navigation across changing traffic and weather conditions.
By Ankit Singh
22 Jan 2026
Wearable health technologies promise personalized care and early detection - but questions around accuracy, privacy, and mental health remain.
By Samudrapom Dam
15 Jan 2026
Switzerland has become one of the world’s most trusted places to design sensors by leaning into precision rather than sheer production volume. Here, we discuss what makes
By Ankit Singh
8 Jan 2026
Countless studies have found success in non-invasive sensing. But when will it become a reality in hospitals and at home?
By Ankit Singh
29 Dec 2025
An overview of in situ viscosity and temperature sensing for lubricant monitoring, covering sensing principles, integration into rotating machinery, and applications in predictive maintenance.
By Ankit Singh
18 Dec 2025
Whether you’re a researcher, engineer, or healthcare professional, this resource is a clear and practical overview of how SPR biosensors are shaping the future of diagnostics, as well as the challenges and opportunities that lie ahead.
By Samudrapom Dam
12 Dec 2025
This in-depth guide breaks down the working principles of a transducer, explaining how physical inputs, like pressure, heat, or movement, are converted into electrical signals. From active and passive designs to piezoelectric, thermoelectric, and optical systems, we cover the key mechanisms that make transducers essential in everything from industrial automation to wearable tech.
By Ankit Singh
4 Dec 2025