Highlights
A new class of materials can efficiently use sunlight to generate solar steam for cleaning water and reducing waste Argonne National Laboratory | 21.08.2019 Image credit: Argonne National Laboratory |
Researchers have developed a new method for producing highly detailed structures measuring less than 100 micrometres in diameter ETH Zurich | 08.08.2019 Image credit: Carmela de Marco/ETH Zurich |
Researchers have succeeded in placing light sources in atomically thin material layers with an accuracy of just a few nm Technical University of Munich | 01.08.2019 Image credit: Christoph Hohmann/MCQST |
Physicists make graphene discovery that could help develop superconductors at room temperature Rutgers University | 31.07.2019 Image credit: Yuhang Jiang/Rutgers University-New Brunswick |
Researchers have discovered a new type of 2D magnetic material that can be integrated into spintronic devices EPFL | 17.06.2019 Image credit: Ahmet Avsar/EPFL |
LEDs created from wonder material could revolutionize lighting and displays Science | 04.06.2019 Image credit: N. Zhou et al/SCI. ADV. (2019) |
Scientists have discovered a way to alter heat transport in thermoelectric materials ORNL | 03.06.2019 Image credit: Michael Manley/ORNL, US DOE |
Innovative approach to controlling magnetism could lead to ultra-low-power microchips MIT | 12.11.2018 Image credit: MIT researchers |
Supercomputer predicts development of novel hybrid perovskites Materials Today | 23.10.2018 Image credit: Volker Blum/Duke University |
Using microphotonic chips, EPFL scientists are able to generate coherent ultrashort pulses EPFL | 19.10.2018 Image credit: Erwan Lucas/EPFL |
When light, not heat, causes melting: study reveals the details of light-induced phase changes MIT | 15.10.2018 Image credit: MIT/Stanford University/Skoltech |
Researchers quickly harvest 2-D materials, bringing them closer to commercialization MIT | 11.10.2018 Image credit: Peng Lin |
Self-healing material can build itself from carbon in the air MIT | 11.10.2018 Image credit: MIT chemical engineers |
Cost-effective method produces semiconducting films from materials that outperform silicon MIT | 08.10.2018 Image credit: Wei Kong and Kuan Qiao |