In this article, we get technical. What is Floquet engineering, and how can this quantum-level science impact materials? We explain this and more.
By Atif Suhail
7 Jan 2026
Scientists are developing materials that adapt to their surroundings, helping to clean water more efficiently and more sustainably.
Clean pigments in cosmetics reflect a commitment to safety and sustainability, emphasizing purity, particle engineering, and environmental impact management.
By Ankit Singh
31 Dec 2025
Hydrogen’s promise is limited by how it is stored. This article examines how high-entropy alloys could reshape solid-state hydrogen storage, and the challenges that remain.
By Mohsin Abbas
22 Dec 2025
This article examines how the unique structures of graphene and silica aerogels enable exceptional thermal, electrical, and adsorption properties, reviews current fabrication methods, and assesses the challenges limiting large-scale deployment in sustainable technologies.
What happens when fungi are fed our waste? Mycelium materials grow into foams, panels, and fabrics that point toward a more circular approach to making things. Read this article for more info.
By Atif Suhail
15 Dec 2025
From 11.5 million alloy candidates to AI-guided perovskites, this piece unpacks how materials informatics is speeding up discovery, design, and deployment in engineering.
Explore the key differences between carbon steel and alloy steel, including their composition, mechanical properties, corrosion resistance, and industry-specific applications.
Scientists are building a nuclear clock so precise it could detect dark matter and test the laws of physics. The secret? A rare, low-energy transition in thorium-229. Here, we explain the science of this hyperprecision.
From heat-resistant engineering plastics to sequence-encoded polypeptides, scientists are redefining what modern polymers can do, and how they’re made.
By Atif Suhail
25 Nov 2025