Blog
- Pt nano-catalyst with graphene pockets enhances fuel cell durability and efficiency 17/04/2025 The manufacturing and deployment of hybrid and electric vehicles is on the rise, contributing to ongoing efforts to decarbonize the transport industry. While cars and smaller vehicles can be powered using lithium batteries, electrifying heavy-duty vehicles, such as trucks and large buses, has so far proved much more challenging.
- A New Age of Electron Microscopy: Magnifying Possibilities with Automation 15/04/2025 Automated electron microscopy meets supercomputing in the web-based platform Distiller
- Scientists unveil new way to electrically control spin for ultra-compact devices using altermagnetic quantum materials 10/04/2025 Spintronics, an emerging field of technology, exploits the spin of electrons rather than their charge to process and store information. Spintronics could lead to faster, more power-efficient computers and memory devices. However, most spintronic systems require magnetic fields to control spin, which is challenging in ultracompact device integration due to unwanted interference between components. This new research provides a way to overcome this limitation.
- New superconducting state discovered: Cooper-pair density modulation 08/04/2025 Superconductivity is a quantum physical state in which a metal is able to conduct electricity perfectly without any resistance. In its most familiar application, it enables powerful magnets in MRI machines to create the magnetic fields that allow doctors to see inside our bodies. Thus far, materials can only achieve superconductivity at extremely low temperatures, near absolute zero (a few tens of Kelvin or colder).
- Organic electrochemical transistors enhance bioelectronic sensor sensitivity by three orders of magnitude 27/03/2025 In a breakthrough that could transform bioelectronic sensing, an interdisciplinary team of researchers at Rice University has developed a new method to dramatically enhance the sensitivity of enzymatic and microbial fuel cells using organic electrochemical transistors (OECTs). The research was recently published in the journal Device.
- A completely new type of microscopy based on quantum sensors 25/03/2025 Researchers at the Technical University of Munich (TUM) have invented an entirely new field of microscopy called nuclear spin microscopy. The team can visualize magnetic signals of nuclear magnetic resonance with a microscope. Quantum sensors convert the signals into light, enabling extremely high-resolution optical imaging.
- Graphene's quantum spin injection promises energy-efficient spintronics 20/03/2025 Researchers at the National Graphene Institute at the University of Manchester have achieved a significant milestone in the field of quantum electronics with their latest study on spin injection in graphene. The paper, published recently in Communications Materials, outlines advancements in spintronics and quantum transport.
- Physicists find unexpected crystals of electrons in new ultrathin material 18/03/2025 MIT physicists report the unexpected discovery of electrons forming crystalline structures in a material only billionths of a meter thick. The work adds to a gold mine of discoveries originating from the material, which the same team discovered only about three years ago.
- Innovative microscope reveals full 3D molecular orientation in cells 27/02/2025 Two heads are better than one, as the saying goes, and sometimes two instruments, ingeniously recombined, can accomplish feats that neither could have done on its own.
- Two distinct superconducting states found in Bernal bilayer graphene challenge current models 25/02/2025 Superconductivity is a widely sought after material property, which entails an electrical resistance of zero below a specific critical temperature. So far, it has been observed in various materials, including recently in so-called multilayer graphene allotropes (i.e., materials that consist of several layers of a hexagonal carbon lattice).
- Artificial intelligence helped scientists create a new type of battery 20/02/2025 The process identified 23 promising materials from 32 million candidates in just 80 hours