From creating lightweight yet durable prosthetics to designing new types of solar panels and batteries, materials engineers combine their expertise in physics, chemistry, biology, and engineering to ...

Industrial manufacturers and academic researchers can use patented, innovative laser techniques developed at Purdue University to produce high-tech materials such as semiconductor oxide thin films and ...

Applied Materials has revealed chip wiring innovations that will help address challenges in the way of energy-efficient computing. The use of new materials in chip wiring will enable two-nanometer ...

Self-healing materials can autonomously repair damage and make bridges, roads, and aircraft more durable and sustainable.

Pretentious as it may sound, we can say with certainty that bamboo is one of the most promising materials for the future of the construction industry. Neil Thomas, principal engineer at atelier one, ...

Material engineering involves the creation and design of inventive materials, blending principles from chemistry, physics, and engineering. Mass spectrometry emerges as a vital tool in material ...

Applied Materials introduced three new chipmaking systems that boost the energy-efficient performance of leading-edge logic chips. The technologies supercharge AI compute through atomic-scale ...

In our recent study published in ACS Sustainable Chemistry & Engineering, my colleagues and I explore how nitrogen-doped graphene nanoplatelets can be produced using a solvent-free, bio-derived ...

Scientists have developed artificial heterostructures made of freestanding 2D and 3D membranes that have an energy density up to 19 times higher than commercially available capacitors. Electrostatic ...

Industry’s first use of ruthenium in high-volume production enables copper chip wiring to be scaled to the 2nm node and beyond and reduces resistance by as much as 25% New enhanced low-k dielectric ...