These recyclable nanosheets have significantly reduced the number of defects compared with previous methods, which will extend the shelf life of some consumer electronics.
Researchers have developed a sensor that utilises energy from sound waves to control electronic devices. This could one day save millions of batteries.
Highly adaptable optothermal nanotweezers leverage thermophoresis and thermo-osmosis to trap nanoparticles as small as 3.3 nm across materials without requiring surface modifications.
Through a series of experiments, a team of mathematicians has figured out how flowing fluids exert forces and move structures, thereby revealing the answer to this long-standing mystery.
Researchers present a solution to a challenging problem: how motion can be transferred in a controlled manner from one place to another through a molecular gear.
Researchers have broken a new record in precision manufacturing, in the quest to fabricate the silicon chips of future quantum computers. They showed that phosphorous ions can be implanted in silicon crystal with 99.95 confidence, while at the same time being precisely located within the chip.
First development of spintronic device consisting of two-dimensional ferromagnetic-ferroelectric material heterostructure, observation of low-power voltage-driven device operation.
Statisticians have introduced a new technique that accurately describes high-dimensional data using lower-dimensional smooth structures. This innovation marks a significant step forward in addressing the challenges of complex nonlinear dimension reduction.
