This FAQ addresses the specific challenges this transition presents for assembly and how structural adhesives are emerging as an enabler for these complex systems.

In the future, there could be materials that can reconfigure themselves on demand, adapting their structure and properties like living organisms. A team of Japanese scientists have created a ...

A team from Tokyo University of Science has unveiled an AI-powered X-ray analysis method that deciphers the complex spectral fingerprints of materials with high precision, paving the way for faster, ...

Mono-material flexible film packaging structures based primarily on polyethylene (PE), polypropylene (PP), or even polyethylene terephthalate (PET) are being promoted as an effective means of ...

Since their discovery at Drexel University in 2011, MXenes — a family of nanomaterials with unique properties of durability, conductivity and filtration, among many others — has become the largest ...

A-Lab on Thursday, April 6, 2023 at Lawrence Berkeley National Laboratory in Berkeley, Calif. Researchers at Google DeepMind have used artificial intelligence to predict the structures of more than 2 ...

MIT researchers created a model that suggests promising ways to synthesize new materials for faster experimentation.

The speed of light varies in materials, impacting fiber optics, laser systems, and semiconductor lithography through complex ...

What is Atomic Layer Etching? Atomic layer etching (ALE) is a highly controlled and selective etching technique that removes material layer by layer at the atomic scale. It is a cyclic process that ...