Using a series of more than 1,000 X-ray snapshots of the shapeshifting of enzymes in action, researchers at Stanford ...

Many of the devices that make modern life convenient and efficient rely on rechargeable batteries. Lithium-ion batteries, one ...

In a groundbreaking study, researchers discovered how bilayer graphene could revolutionize data processing through ...

A collaborative research team from Fudan University has achieved a breakthrough in green hydrogen production efficiency. The ...

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

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

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

The structural analysis of redox enzymes in their reduced and oxidized states is crucial for advancing bioelectronic devices like biosensors and biofuel cells. In a recent study, researchers from ...

However, enabling effective and efficient electron transfer between enzymes and electrodes ... a porous crystalline structure and are commonly used in gas adsorption/separation and other fields. In ...

However, enabling effective and efficient electron transfer between enzymes and electrodes ... MOF structure using materials that facilitate electron conduction and enable specific redox reactions ...

Lithium-sulfur battery retains 80 percent charge after 25,000 cycles Revolutionary battery structure enhances longevity and fast charging Study presents new electrode design for better energy storage ...