Find out why Kapton® remains the go-to polymer for spacecraft designers tackling the harsh realities of low Earth orbit.
Thrusters operate where most materials fail. Refractory metals ensure reliability and performance under extreme temperatures, chemical exposure, and plasma conditions.
Solid-state batteries deliver higher energy density, improved safety, and longer cycle life. Key advances in electrolytes, anodes, and cathodes are accelerating their path to commercial adoption.
Fused silica or fused quartz? Learn the key differences in purity, performance, and best-use cases in under 2 minutes.
Learn about the structure, properties, and applications of perovskite materials in solar cells, catalysis, and sensors; and find out how Goodfellow can help you integrate perovskites into your projects.
From cooling paints that reduce energy use to polymers that could heal themselves after damage, AI is accelerating a revolution in material science.
Goodfellow hosts round table on nuclear fusion materials at IOM3's M3P3 conference.
From electrochemistry to semiconductor fabrication, the use of defect-free foils ensures structural integrity, consistent performance, and contamination-free environments.
Goodfellow Chief Executive Simon Kenney appeared on BBC Radio 5 Live’s Wake Up to Money to discuss the global impact of advanced materials. From cancer research to space technology, Simon shared how innovation, cybersecurity, and AI are shaping the future of advanced manufacturing.
