Scientists improved enzyme-based biosensors by modifying MOFs to enhance electron transfer and enzyme stability. Enzymes are ...

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 ...

These materials have improved the reaction efficiency and long-term stability of enzymes in electrochemical biosensors used in health care and other applications. Furthermore, the researchers ...

This innovative strategy enables highly efficient and stable long-term measurements of the enzyme-based biosensor. This achievement has potential future applications in various fields, such as ...

The biosensor patch, often worn on the upper arm, continually measures blood glucose in the fatty layer under the skin using the enzyme glucose oxidase as a recognition molecule ... Several examples ...

This study presents a novel approach using metal-organic frameworks to enhance enzyme-electrode interactions, advancing ...

Nanozyme-based biosensors have been developed for the detection of glucose ... Furthermore, the exploration of nanozymes for in vivo applications, such as targeted drug delivery and enzyme replacement ...

Synthetic biologists have developed a prototype for an innovative biosensor that can detect rare earth elements and be modified for a range of other applications.

To work well, redox enzymes must be fixed on solid surfaces to stay stable and reused. The most stable method is to bind them tightly to electrodes. However, this can sometimes make the enzymes ...

Theory, development, and applications of biochemical sensors used in medical diagnosis and patient monitoring. Methods for sensing biomolecules, enzyme activities, and cells. The course provides an ...