Researchers have developed a stable, high-performance MXene ink formulation optimized for aerosol jet printing - paving the way for scalable manufacturing of micro-supercapacitors, sensors, and other energy storage and harvesting devices.

Researchers have demonstrated an innovative method to control magnetism in materials using an energy-efficient electric field. The discovery focuses on materials known as magnetoelectrics, which offer promise for next-generation energy technologies, data storage, energy conversion, and medical devices.

Kirigami-inspired 3D microelectrodes enable brain activity recording from surface to depth, offering new tools for neuroscience and future medical neurotech.

Scientists have developed a new way to improve the lifespan of zinc-ion batteries, offering a safer and more sustainable option for energy storage.

Breakthrough metasurface acts like a smart mirror for electromagnetic waves, automatically adapting its reflection without any external control.

The nanoneedle patch offers a painless and less invasive alternative for millions of patients worldwide who undergo biopsies each year to detect and monitor diseases like cancer and Alzheimer's.

Researchers used epitaxial strain on ultra-thin ruthenium oxide layers to induce magnetism in a material typically known for being metallic but nonmagnetic.