In a major advance applying insights from quantum physics to the inner workings of biology, a team of WashU researchers has ...

The U.S. biosensors market was estimated to be worth USD 11.0 billion in 2025 and is expected to grow at 8.60% CAGR between 2026 and 2035, reaching approximately USD 25.1 billion. The increasing ...

Advances in microfluidic biosensors and materials science transformed sweat into a reliable, high-quality data stream capable ...

Nanoelectronic biosensors are nanostructured semiconducting materials aimed at addressing nanomolecules to facilitate appropriate solutions for biological activities at the cellular level. The past ...

Biodegradable microneedles act as binary fluorescent switches, encoding pH and glucose levels beneath the skin into scannable ...

Nanoparticles were first developed approximately 35 years ago [1]. They were initially developed as carriers for vaccines and cancer chemotherapy agents. In the first part of the paper we focused on ...

Cornell scientists have engineered E. coli to act as a sensitive biosensor for monitoring environmental arsenic, a toxic ...

A new biosensor developed at the Department of Energy's Oak Ridge National Laboratory detects the emerging presence of fungus ...

Biosensors have extensive applications in the food and agriculture industries. The devices contain a transducer and a biological element, which may be an enzyme, antibody, microbe, or organelle. The ...

Scientists have developed an innovative technique to print biosensors, which can measure temperature, electrical heart signals and blood oxygen saturation, directly onto the skin at room temperature.