Biodegradable waste from plant and animal sources released into freshwater ecosystems is a significant environmental concern.| AZoSensors
In this article, we explore how sensor technologies can be used to monitor freshwater pollution. Continue reading to learn more.| AZoSensors
At the University of California San Diego, a research team has designed a wearable, non-invasive Vitamin C sensor that can offer a new, highly customized option for users to monitor their dietary adherence and daily nutritional intake.| AZoSensors
AZoSensors provides an overview of the integration of sensors into bioelectronics and its application in the field of medicine.| AZoSensors
How spectroscopic sensors are making forensic drug analysis faster, more accurate, and field-ready—with help from AI and nanotech.| AZoSensors
Discover how cutting-edge sensors, spectroscopy, AI, and portable tools are transforming food fraud detection—ensuring safety, authenticity, and transparency across global supply chains.| AZoSensors
SDSU researchers developed a secure IoT-based crop monitoring system that boosts yields and reduces costs while ensuring data privacy with advanced encryption.| AZoSensors
In a collaborative effort, spearheaded by Professor Young Min Song from the School of Electrical Engineering and Computer Science at Gwangju Institute of Science and Technology in Korea, DeepGT has emerged as a pioneering solution to the pressing challenges of viral detection.| AZoSensors
Researchers discuss some of the prerequisites for fabricating nanocellulose 3D network structures (hydrogels and air-porous materials) that have properties that are useful for pressure and strain sensors.| AZoSensors
Researchers investigate liver dysfunction detection using a wearable semiconducting e-nose gas sensor.| AZoSensors
In a new study, researchers present a three-dimensional affinity biosensor (3DA-biosensor) made up of a self-assembled hydrogel-aptamer hybrid layer (H-AHL) composition and GFET for ultra-sensitive, quick, and accurate detection of AMI in patient samples.| AZoSensors
Innovative Plasmonic Biosensors with artificial antibodies enable rapid Detection of Kidney Disease biomarkers, improving point-of-care diagnostic capabilities.| AZoSensors
Researchers have developed a highly sensitive photonic crystal biosensor with an eye-shaped design, which enables the noninvasive early detection of cancerous cells.| AZoSensors
A team at the University of California San Diego has developed a wearable, non invasive Vitamin C sensor that could provide a new, highly personalized option for users to track their daily nutritional intake and dietary adherence.| AZoSensors
Bioelectronic chips are emerging as cutting-edge tools in nutritional monitoring, providing real-time, precise measurements of essential vitamins. This innovation is set to transform personal health and medical diagnostics by leveraging advanced biosensing technology.| AZoSensors
The emergence of printable sensor technology revolutionizes the sensing landscape, offering flexibility and versatility in various applications.| AZoSensors
Wearable sensors are portable, low-cost, and unobtrusive devices that have the potential to alter rehabilitation in the clinical setting.| AZoSensors
Biosensors have become essential for ensuring food safety by detecting pathogens, toxins, and contaminants. Recent advancements in nanotechnology, materials science, and biotechnology have significantly improved the sensitivity, specificity, and functionality of biosensors, facilitating rapid and accurate on-site testing and enhancing the safety of food products.| AZoSensors