The graphene-based, ultra-thin, antibacterial material can be applied to any surface, including biomedical devices, surgical ...

Quantum sensing using diamond NV centers enables real-time, high-resolution monitoring of nanoscale battery electrode particles, revealing key insights into phase transformations and failures.

Scientists are creating artificial spider silk by drawing strands from an array of tiny hollow needles, similar to how arachnids do it.

Researchers have uncovered new insights into the efficiency of topological insulators, illuminating the significant disparity ...

Researchers developed a synthesis process to produce a 'rust-resistant' coating with additional properties ideal for creating ...

Innovative research shows how carbon nanotubes, made from CO2 captured from the air, can significantly enhance plastic ...

These findings suggested that the PWCu nanocapsules offer a multifaceted strategy that not only enhances the local antitumour ...

Scientists have discovered a completely new type of cell which has the potential to enhance the future of tissue repair and ...

The development of artificial intelligence technology capable of predicting ion concentration in water can contribute to ...

By analyzing X-ray crystallography data, the model could help researchers develop new materials for many applications, ...

Utilizing the self-developed highly sensitive MFM, the first direct observation of intrinsic magnetic structures in a kagome ...

While current treatments for ailments related to aging and diseases like type 2 diabetes, Alzheimer’s, and Parkinson’s focus ...