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 ...

Companies to work together at Applied’s EPIC Center in Silicon Valley to accelerate development of advanced DRAM, high-bandwidth memory and NAND ...

Joint R&D programs focused on advancing materials engineering and advanced packaging innovations for next-generation DRAM and high-bandwidth ...

Applied’s EPIC Center is designed to provide chipmakers and ecosystem partners with earlier access to Applied’s R&D portfolio, faster cycles of learning, etc.

Thinking big about small materials, researchers in Northwestern Engineering’s Materials Innovation Lab are advancing additive manufacturing at the nanoscale, developing methods to produce sustainable ...

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 ...

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 ...

In the summer of 2021, Max Urban had just finished his first year as a chemical engineering major at the University at Buffalo when he received an email that an undergraduate major in material science ...

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 ...

These everyday experiences are made possible by an invisible hero in the manufacturing world: Modified Engineering Plastics. These are not merely basic polymers; they are sophisticated, chemically ...