University of Liverpool researchers have discovered a way to host some of the most significant properties of graphene in a ...

Degradable pacemakers and artificial neurons showcase how flexible, tissue-compatible electronics are revolutionising medicine. But translating these materials from lab bench to clinic requires solvin ...

Researchers show hafnium stannide can host graphene-like electron flow in a robust 3D structure, paving the way for scalable ...

Flexible and stretchable electronics have gained significance owing to their ability to be compressed, twisted, and molded into non-planar surfaces. Soft, flexible, and stretchable materials ...

A printed electronic circuit on a clear, flexible substrate draped over a human hair. This flexible transistor device is made entirely of biodegradable materials, including a semiconducting polymer ...

Discover how heat resistant materials and material science innovations help electronics manufacturing manage rising temperatures, boost reliability, and enable smaller, more powerful next‑generation ...

A burst of invisible light can do more than illuminate a surface. In a new study, Michigan State University researchers used ...

Emerging and future 2D electronic materials such as graphene have the potential to exceed the capabilities of modern components in terms of carrier capacity, strength, and versatility. This article ...

Characteristics of liquid-based electronic materials, including ionic liquid, conductive hydrogel, liquid metal, liquid-infused surface, and liquid-based adhesive, and their versatile applications in ...

Thermal management deals with problems arising from heat dissipation, thermal stresses and warping. It is critical in the packaging of power semiconductors and other microelectronic and optoelectronic ...