A research team from the Energy & Environment Materials Research Division, led by Drs. Dong-Chan Lim and So-Yeon Kim, have created a next-generation thin-film material technology that substantially ...
Phys.org on MSN: Laser method unlocks 3,000-Kelvin thin-film synthesis for quantum materials
The Max Planck startup epiray vaporizes substances using high-power lasers to create new materials in ultra-thin layers. This innovation forms the basis for further advancements in thin-film ...
Phys.org: New machine learning tool reveals atomic structure of ultra-thin film materials
Thin film electronics on flexible substrates is a rapidly evolving technology that has the potential to revolutionize various industries, including healthcare, consumer electronics, and aerospace.
The Department of Science and Technology (DOST) lauded the work in the country of Sweden-based Filipino scientist to strengthen the country’s research and development capacity in thin films, a ...
Morning Overview on MSN: Caltech laser method enables 3,000 K thin-film growth for quantum materials
Most machines that grow atom-thin films top out around 2,000 Kelvin. That temperature ceiling locks researchers out of an entire class of ultra-refractory compounds, the very materials that physicists ...
Science Daily: Breakthrough in materials science: AI reveals secrets of dendritic growth in thin films
Breakthrough in materials science: AI reveals secrets of dendritic growth in thin films
Thin films can be made from a variety of materials, including metals (e.g., gold, silver), oxides (e.g., silicon dioxide, titanium dioxide), and semiconductors (e.g ...
Researchers have unveiled a breakthrough in solid-state cooling technology, doubling the efficiency of today's commercial systems. Driven by the Lab's patented nano-engineered thin-film thermoelectric ...