Scientists from Skoltech and their colleagues from Russia and Finland have figured out a non-invasive way to measure the thickness of single-walled carbon nanotube films, which may find applications in a wide variety of fields from solar energy to smart textiles.
While the use of face masks in public has been widely recommended by public health officials during the current COVID-19 pandemic, there are relatively few specific guidelines pertaining to mask materials and designs.
Steering and monitoring the light-driven motion of electrons inside matter on the time-scale of a single optical cycle is a key challenge in ultrafast light wave electronics and laser-based material processing.
Researchers from the Institute of Process Engineering of the Chinese Academy of Sciences and Argonne National Laboratory in the U.S. have recently employed atomic layer depositionto fabricate visible light-activated membranes that efficiently utilize solar energy.
Spiders -- what are they good for? The answer, it turns out, is more than just insect control.
With literally the thickness of one carbon atom and electrical properties that can surpass those of standard semiconductor technologies, graphene nanoribbons promise a new generation of miniaturized electronic devices.
When two cars collide at an intersection -- from opposite directions -- the impact is much different than when two cars -- traveling in the same direction -- "bump" into each other. In the laboratory, similar types of collisions can be made to occur between molecules to study chemistry at very low temperatures, or "cold collisions."
High-pressure materials science has taken off over the last couple of decades with advances in previously difficult experimental techniques and from technologies such as diamond anvils, which squeeze samples of materials between two diamonds at pressures up to millions of times greater than that at the Earth's surface.
A team led by Prof. NI Yong and Prof. HE Linghui from University of Science and Technology of China of the Chinese Academy of Sciences designed a discontinuous fibrous Bouligand architecture, a combination of Bouligand and nacreous staggered structures.
JST announced the result of the development project "a precision joining device with heat sink laser welding" by Adaptable and Seamless Technology Transfer Program through Target-driven R & D (A-STEP) enterprise-led phase NexTEP-A type as successful.
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