Advanced Functional Materials
No mentions found
This entity hasn't been tracked yet, or Iris is still building its knowledge base.
Related Articles from SNS
Magnetic field during catalyst synthesis triples ammonia yield
Applying an external magnetic field during the synthesis of CoFe2O4 electrocatalysts triples the ammonia yield during electrocatalytic conversion. The magnetic field alters the surface states of the spinel oxide thin films, making catalytically active sites more accessible. In the journal Advanced Functional Materials, a team led by Marcel Risch at HZB and Sanjay Mathur at University of Cologne demonstrates a scalable strategy for developing next-generation electrocatalysts for efficient and...
'Flawless on the outside, flipped within': Detecting hidden defects in 2D dielectrics with light
'Flawless on the outside, flipped within': Detecting hidden defects in 2D dielectrics with light Gaby Clark Scientific Editor Alexander Pol Deputy Editor A material may appear flawless on the surface yet fail to function properly. The cause lies in structural defects hidden within two-dimensional thin films, which are considered key materials for next-generation semiconductor devices.
Advances in electrical contacts to single crystals of emerging materials for transport measurements
arXiv:2606.00173v1 Announce Type: cross Abstract: Transport measurements that probe electrical resistivity of a material under varying external stimuli, such as temperature, magnetic field, optical illumination, and gate voltage, are among the most important experimental techniques in condensed matter physics. These measurements provide critical insights into the fundamental electronic properties of materials. In recent years, they have facilitated the discovery and exploration of intriguing...
Advances in electrical contacts to single crystals of emerging materials for transport measurements
arXiv:2606.00173v2 Announce Type: replace-cross Abstract: Transport measurements that probe electrical resistivity of a material under varying external stimuli, such as temperature, magnetic field, optical illumination, and gate voltage, are among the most important experimental techniques in condensed matter physics. These measurements provide critical insights into the fundamental electronic properties of materials. In recent years, they have facilitated the discovery and exploration of...
Photoexcitation flips 2D moiré devices from metals to insulators in ultrafast test
June 4, 2026 feature Photoexcitation flips 2D moiré devices from metals to insulators in ultrafast test Ingrid Fadelli Author Sadie Harley Scientific Editor Robert Egan Associate Editor Quantum materials, materials with properties that are governed by the laws of quantum mechanics describing many-body interactions, have proved promising for the development of various advanced technologies. Many of these materials undergo so-called phase transitions, switching between different physical...
Twisted stacking lets 2D conductor keep single-layer performance in bulk form
Twisted stacking lets 2D conductor keep single-layer performance in bulk form Lisa Lock Scientific Editor Robert Egan Associate Editor Two-dimensional (2D) materials, which are significantly thinner than a single sheet of paper, have long drawn attention for their exceptional performance. However, they have faced a critical limitation: Their performance degrades significantly when multiple layers are stacked. A research team led by Professor Sarah S. Park from the Department of Chemistry at...
Hair-size microrobots combine three cancer-fighting functions in preclinical animal tests
Hair-size microrobots combine three cancer-fighting functions in preclinical animal tests Gaby Clark Scientific Editor Andrew Zinin Lead Editor Imagine a future where cancer treatment affects only the tumor, where eye injections are no longer required and brain surgeries don't result in large incisions or long recovery times. That's the future researchers at Michigan State University are working toward. Their goal is to make medical care easier on patients by using tiny biodegradable tools...
Fluorescent nanosensor detects key gut biomarker in minutes for faster testing
Fluorescent nanosensor detects key gut biomarker in minutes for faster testing Sadie Harley Scientific Editor Robert Egan Associate Editor A research collaboration has developed a novel fluorescent nanosensor capable of rapidly detecting indole-3-propionic acid (IPA), an emerging biomarker linked to gut health and disease. The breakthrough is described in the team's paper, "Fluorescent Nanosensor for Indole-3-Propionic Acid Detection in Gut Health Monitoring," published in the journal...
Haus Da Lat: a new luxury living and resort destination in Vietnam
Morning mist drifts across the pine-covered hills of Da Lat, a city long known for its temperate climate and unhurried pace. Once a quiet retreat, the highland destination is drawing renewed attention as Vietnam’s economic ascent reshapes its appeal to global investors. Within this shift, a new class of development is emerging.
Axiom reveals its Prada-designed spacesuit inner layer for NASA
Axiom reveals its Prada-designed spacesuit inner layer for NASA The Liquid Cooling and Ventilation Garment will keep astronauts cool on the lunar surface. With NASA set to go to the moon as part of its Artemis III missions, it tasked Axiom Space and Prada to create new, high-tech spacesuits. We recently saw how they'll look on the outside with the chic new Axiom Extravehicular Mobility Unit suit.