Researchers have engineered a new type of refrigerator that can autonomously cool superconducting qubits to record low ...

Electron transport in bilayer graphene exhibits a pronounced dependence on edge states and a nonlocal transport mechanism.

Researchers develop a cost-effective porous carbon method for supercapacitors, achieving 30% higher energy storage with safe, ...

Janus graphene nanoribbons' zigzag edge hosts a ferromagnetic spin chain, paving the way for advances in quantum electronics ...

PET plastics take hundreds of years to degrade in the environment. Over time, they break down into microplastics, pieces of ...

Scientists show non-ferroelectric materials can gain ferroelectric properties when stacked with ferroelectric materials - a phenomenon called proximity ferroelectricity.

Using a new artificial intelligence method, scientists can accurately predict the activity of genes within any human cell, ...

The living battery could supply power to sensors for agriculture or research in remote regions. Once the work is done, it digests itself from the inside.

By utilizing graphene's ability to absorb UV light and distribute heat, researchers have achieved pristine, flexible displays ...

New flexible sensor technology transforms ordinary diapers into medical monitoring devices, enabling real-time tracking of ...

Researchers have designed and demonstrated a large aperture, wide field of view eyepiece based on meta-optics.

Furthermore, researchers revealed a site-bond recognition pattern of the Pt-Fe-Pt heterotrimer. The left-end Pt atom anchored ...