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 ...

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 ...

Cholesterol biosensors represent a critical advancement in analytical technology, offering rapid, cost-effective and highly sensitive methods for the quantification of cholesterol in both clinical and ...

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 ...

Biosensor reads creatinine in seconds, enabling rapid kidney function testing with high sensitivity for faster, point-of-care ...

Enzymes play a crucial role in chemical reactions within the human body and nature. However, integrating them into electronic ...

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.

Unfortunately, they tend to also suffer from degradation. The researchers overcame this problem by creating their biosensor with three components. The first was an enzyme-based fuel cell to power the ...

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 ...