Category archives: Materials

Tuning spin and charge in graphene nanoribbons with atomic precision

Tuning spin and charge in graphene nanoribbons with atomic precision

Condensed matterDIPC Electronic PropertiesMaterialsQuantum physics

By DIPC

Graphene—a single layer of carbon atoms arranged in a honeycomb lattice—has captivated scientists because of its extraordinary electronic and mechanical properties. Its electrons move through the lattice almost as if they were massless, giving graphene exceptionally high electrical conductivity and mobility. However, pristine graphene sheets are not magnetic and their electrons are delocalized across the […]

Building chips up: wafer-scale, MoS₂ electronics for BEOL integration

Building chips up: wafer-scale, MoS₂ electronics for BEOL integration

MaterialsNanotechnology

By Invited Researcher

When we think of faster, cheaper electronics, we usually think “smaller transistors.” But the future is also about stacking—adding new layers of components on top of finished silicon chips. That’s called back‑end‑of‑line (BEOL) integration, and it only works if everything you add can be made at low temperatures (generally below ~400–450 °C), otherwise you damage […]

Unlocking the secrets of recyclable vitrimers

Unlocking the secrets of recyclable vitrimers

ChemistryDIPC PolymersMaterials

By DIPC

In polymer science, the classic division is between thermoplastics, which soften and flow when heated, and thermosets, which are permanently cross-linked and keep their shape no matter how hot they get—at least until they burn. In the last decade, researchers have discovered a fascinating new class of materials called vitrimers, which sit between these two […]

Covalent bonds found in alpha plutonium

Covalent bonds found in alpha plutonium

ChemistryMaterialsPhysics

By Mapping Ignorance

Plutonium has captured the attention of scientists since its discovery in the early 1940s. This enigmatic element has an important role to play in emerging energy technologies like nuclear batteries and reactors, but it also has complicated electronic behavior that causes some intriguing effects. Its electron structure contributes to unconventional entropic properties at low temperatures […]

Selective reduction and its reversibility: a crystal that <i>breathes</i> oxygen

Selective reduction and its reversibility: a crystal that breathes oxygen

ChemistryEnergyMaterialsPhysics

By Mapping Ignorance

A team of scientists has discovered a new type of crystal that can “breathe”—releasing and absorbing oxygen repeatedly at relatively low temperatures. This unique ability could transform the way we develop clean energy technologies, including fuel cells, energy-saving windows, and smart thermal devices. The newly developed material is a special kind of metal oxide made […]

Circular economy could make demolition a thing of the past

Circular economy could make demolition a thing of the past

Materials

By Invited Researcher

Authors: José Manuel Cabrero, Catedrático. Estructuras Arquitectónicas y Construcción con Madera. Cátedra Madera Onesta, Universidad de Navarra and Rayder Willian Leonardo Laura, Científico investigador, Universidad de Navarra Most of us are already quite comfortable recycling our household waste. In Spain, for instance, millions of tonnes of packaging are processed every year, but did you know […]

A clash of quantum states in the mosaic phase of a transition metal dichalcogenide

A clash of quantum states in the mosaic phase of a transition metal dichalcogenide

Condensed matterDIPC Advanced materialsMaterialsQuantum physics

By DIPC

Imagine a material where electrons glide through without any resistance, moving like a perfectly synchronized dance troupe. This phenomenon, known as superconductivity, allows electricity to flow with zero energy loss, holding immense promise for everything from ultra-efficient power lines to advanced quantum computers. A a team of researchers dives into this fascinating world, focusing on […]

Dynamic and unconventional order in magnetic kagome metal FeGe

Dynamic and unconventional order in magnetic kagome metal FeGe

DIPC Advanced materialsMaterials

By DIPC

Imagine a lattice shaped like a network of interconnected triangles, called a kagome lattice, where atoms or particles struggle to find a comfortable arrangement. This unique structure creates a situation known as geometric frustration, where the particles can’t settle into a simple, orderly pattern because of the lattice’s shape. In a magnetic metal called FeGe […]