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Physics - Materials Science - 08.05.2025
Majoranas on the move
Majoranas on the move
Researchers at QuTech in Delft have combined superconductors and quantum dots to observe and manipulate so-called Majorana bound states, which have properties that could enable stable quantum computation. By building a chain of three coupled quantum dots in a two-dimensional electron gas, they were able to demonstrate properties of Majoranas that are essential for the study of Majorana-based quantum bits.

Materials Science - Physics - 06.05.2025
Accordion effect makes graphene stretchable
Accordion effect makes graphene stretchable
New property of graphene revealed by ultra-clean airless measurement Environment Graphene is a "miracle material": mechanically extremely strong and electrically highly conductive, ideal for related applications. Using a worldwide unique method physicists at the University of Vienna led by Jani Kotakoski have for the first time made graphene drastically more stretchable by rippling it like an accordion.

Physics - Materials Science - 05.05.2025
Aluminum alloys for the hydrogen economy
Aluminum alloys for the hydrogen economy
An alloy of aluminum, magnesium and scandium is strong and does not become brittle even when exposed to relatively large amounts of hydrogen Aluminum alloys are known for their light weight and corrosion resistance - properties that make them ideal materials for a CO2-free economy. Whether in the lightweight construction of vehicles or as storage tanks for green hydrogen, the demand for aluminum will continue to increase with the transition to sustainable technologies.

Microtechnics - Materials Science - 24.04.2025
Flying robots unlock new horizons in construction
Flying robots unlock new horizons in construction
An international team led by researchers from Empa and EPFL has explored how in future aerial robots could process construction materials precisely in the air - an approach with great potential for difficult-to-access locations or work at great heights.

Physics - Materials Science - 22.04.2025
Light fields with an unusual structure: plasmonic skyrmion pockets
Light fields with an unusual structure: plasmonic skyrmion pockets
A research group at the University of Stuttgart has succeeded for the first time in manipulating light by interacting with a metal surface in such a way that it exhibits completely new properties. The researchers have now published their findings in the journal "Nature Physics". DOI: 10.1038/s41567-025-02873-1 "With our results, we are adding another chapter to the still young field of skyrmion research," explains Harald Giessen , head of the 4th Physics Institute at the University of Stuttgart, in whose working group the success was achieved.

Physics - Materials Science - 17.04.2025
New hybrid materials as efficient thermoelectrics
New hybrid materials as efficient thermoelectrics
An international team led by Fabian Garmroudi has succeeded in producing new, efficient thermoelectric materials that could compete with state-of-the-art materials, offering greater stability and lower cost. Thermoelectric materials enable the direct conversion of heat into electrical energy. This makes them particularly attractive for the emerging "Internet of Things", for example for the autonomous energy supply of microsensors and other tiny electronic components.

Physics - Materials Science - 15.04.2025
New method to measure and predict hydrogen bond strength in confined water
New method to measure and predict hydrogen bond strength in confined water
A breakthrough by researchers at The University of Manchester sheds light on one of nature's most elusive forces, with wide-reaching implications for medicine, energy, climate modelling and more. Researchers at The University of Manchester have developed a ground-breaking method to precisely measure the strength of hydrogen bonds in confined water systems, an advance that could transform our understanding of water's role in biology, materials science, and technology.

Materials Science - 07.04.2025
Rolling particles make suspensions more fluid
Rolling particles make suspensions more fluid
For the first time, ETH materials scientists are measuring the rolling friction of tiny, micrometre-sized particles. These measurements permit them to better understand everyday products such as concrete. Lacquers, paint, concrete-and even ketchup or orange juice: Suspensions are widespread in industry and everyday life.

Environment - Materials Science - 07.04.2025
Team Pioneers with Mycelium at Milan Design Week 2025
Team Pioneers with Mycelium at Milan Design Week 2025
After the groundbreaking creation of the first bio-based handbag made from mycelium leather, the Microbiology research group at Vrije Universiteit Brussel (VUB) expands their research on mycelium-based materials into new product categories. Led by Prof. Eveline Peeters and Prof. Elise Vanden Elsacker, the team explores mycelium, the root structure of fungi, as viable alternative to animal and synthetic leather.

Materials Science - Physics - 20.03.2025
Scientists Push the Limits of Thermonuclear Fusion Ma
Scientists Push the Limits of Thermonuclear Fusion Ma
The [X-MAT] research team from the Chair of Nonferrous Metallurgy, in collaboration with international partners, has made a significant breakthrough in the development of radiation-resistant materials for nuclear fusion reactors. Their latest study, published in Advanced Science (DOI: 10.1002/advs.202417659), challenges conventional high-entropy alloy (HEA) concept by demonstrating that reduced chemical complexity can still achieve superior radiation tolerance.

Chemistry - Materials Science - 18.03.2025
Lords of the molecular Rings: An Innovative Shortcut to High-Performance Organic Materials
Lords of the molecular Rings: An Innovative Shortcut to High-Performance Organic Materials
New method can improve the efficiency and flexibility of displays, solar cells and transistors Scientists at the Institute of Organic Chemistry, University of Vienna, have unveiled an innovative approach for synthesizing azaparacyclophanes (APCs), a class of highly advanced ring-shaped molecular structures with immense potential in material science.

Physics - Materials Science - 12.03.2025
Rare quantum effect paves the way for topological quantum computing
Scientists at the Universities of Basel and Cologne have revealed a key superconducting effect in topological insulator nanowires. Their findings bring topological insulator nanowires closer to serving as the foundation for stable, next-generation quantum bits (qubits). Physicists at the Universities of Basel and Cologne have taken an important step forward in the pursuit of topological quantum computing: They observed for the first time ever the so-called Crossed Andreev Reflection (CAR) in topological insulator (TI) nanowires.

Physics - Materials Science - 12.03.2025
Decoding material phase transitions with nanodrums
Decoding material phase transitions with nanodrums
When water freezes into ice or boils into vapour, its properties change dramatically at specific temperatures. These so-called phase transitions are fundamental to understanding materials. But how do such transitions behave in nanomaterials? In Nature Communications , a team of scientists led by TU Delft presents new insights into the complex nature of phase transitions in magnetic nanomaterials.

Physics - Materials Science - 12.03.2025
Phosphorene nanoribbons show their potential for revolutionising electronics
Phosphorene nanoribbons show their potential for revolutionising electronics
Tiny, individual, flexible ribbons of crystalline phosphorus discovered by UCL researchers in 2019 exhibit magnetic and semiconducting properties at room temperature, opening new possibilities for next-generation electronics, finds a new study involving members of the same team. The findings, published in the journal Nature , confirm the one-atom-thick ribbons, known as phosphorene nanoribbons, as a unique class of material that could enable more energy-efficient computing and unlock new quantum technologies.

Materials Science - Microtechnics - 11.03.2025
Muscles from the printer
Muscles from the printer
Researchers are working on artificial muscles that can keep up with the real thing. They have now developed a method of producing the soft and elastic, yet powerful structures using 3D printing. One day, these could be used in medicine or robotics - and anywhere else where things need to move at the touch of a button.

Health - Materials Science - 10.03.2025
Measuring the sticking point of sperm
Measuring the sticking point of sperm
A new way to measure male fertility has been discovered by researchers at the University of Waterloo, opening the door to the development of simple, inexpensive tests for clinical and at-home use. The research team combined expertise in sperm cell behaviour and interface science to determine that the movement of healthy sperm within semen reduces the force with which droplets stick to a water-repellent surface.

Physics - Materials Science - 10.03.2025
Evidence of a new phenomenon: Quantum Tornadoes in Momentum Space
Evidence of a new phenomenon: Quantum Tornadoes in Momentum Space
A team of researchers from Würzburg has for the first time experimentally demonstrated a quantum tornado. Electrons form vortices in the momentum space of the quantum semi-metal tantalum arsenide. Scientists have long known that electrons can form vortices in quantum materials. What's new is the proof that these tiny particles create tornado-like structures in momentum space - a finding that has now been confirmed experimentally.

Materials Science - Environment - 27.02.2025
Researchers at TU Graz Turn Textile Waste into Paper
Researchers at TU Graz Turn Textile Waste into Paper
Until now, old clothes have mainly been incinerated. Using adapted processes from paper production, it is possible to recover the cellulose fibres from used clothing and use them to produce cardboard and other packaging materials.

Physics - Materials Science - 20.02.2025
Cooling Materials-Out of the 3D Printer
Cooling Materials-Out of the 3D Printer
ISTA researchers 3D print high-performance, sustainable thermoelectric materials Rapid, localized heat management is essential for electronic devices and could have applications ranging from wearable materials to burn treatment. While so-called thermoelectric materials convert temperature differences to electrical voltage and vice versa, their efficiency is often limited, and their production is costly and wasteful.

Materials Science - History & Archeology - 19.02.2025
An Electrifying Turn in an Age-Old Quest
An Electrifying Turn in an Age-Old Quest
From a tiny electric jolt when touching a doorknob to styrofoam peanuts that cling to a mischievous cat's fur-the well-known and seemingly simple phenomenon of static electricity has puzzled people since antiquity. How could this ubiquitous effect, frequently demonstrated to bedazzled children by rubbing a balloon on their hair, still not be completely understood by scientists? Static electricity goes by multiple names, but scientists prefer to call it 'contact electrification'.
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