A new pulse irradiation technique synthesizes thin films at ultra-low temperatures, making it ideal for flexible optoelectronic devices and wearable electronics.
Scientists have made a breakthrough in significantly improving the sharpness of X-ray imaging and potentially boosting the speeds at which X-ray scans can be processed.
Researchers develop a precise method for patterning gold nanoparticles on surfaces using DNA origami and electron beam lithography, enabling tunable plasmonic metasurfaces.
Quantum tunneling lets particles seem to move faster than light. Physicists now propose a new method to accurately measure tunneling time and control particle speed.
In a novel study, researchers have made significant strides in understanding the behaviour of micro- and nanobubbles on electrodes during water electrolysis. This process is crucial for (green) hydrogen production.
Researchers have developed a new technique to quickly identify two-dimensional topological quantum materials, accelerating progress in this promising field of technology.
Researchers have developed a new method for calculating phase diagrams of physical systems that works similarly to ChatGPT. This artificial intelligence could even automate scientific experiments in the future.
