Scientists from the Tokyo Medical and Dental University (TMDU) introduce an easy method for manufacturing biosensors made from electrospun polymers. By embedding enzymes inside the polymer string, the ...

DUBLIN--(BUSINESS WIRE)--The "Novel Enzyme Technologies for Pharmaceutical Applications" report has been added to ResearchAndMarkets.com's offering. The current study discusses the novel enzyme ...

Researchers at Tokyo Medical and Dental University (TMDU) demonstrate an enzyme-based biosensor in the form of an electrospun polymer mesh that can detect volatile organic compounds, which may help ...

Researchers have developed a new material that harnesses the power of enzymes more effectively. These materials have improved the reaction efficiency and long-term stability of enzymes in ...

Advances in biosensor technology are driving a new era of digital healthcare, where wearable devices can monitor biological signals continuously and provide real-time insights into patient health.

Biosensor technology can detect a biological event by the production of a measurable signal. The process of detection combines a recognition element for a type of biomolecule or chemical reaction with ...

Patent covers pristine graphene–based biosensor technology to translate protease activity into measurable optical ...

Enzymatic biofuel cells can act as self-powered wearable biosensors by converting chemicals in body fluids into electricity; however, manufacturing challenges have prevented their widespread adoption.

A new technique to make cheaper more efficient biological enzyme hybrids could have valuable applications in future water recycling, targeted drug manufacturing and other industries, green chemistry ...

This figure illustrates the electrochemical wiring of a redox enzyme via a redox-active MOF, enabling efficient electron transfer. The MOF facilitates enzyme immobilization while maintaining catalytic ...