By combining high-entropy materials with halide perovskites, researchers have found a way to produce semiconductors at low temperatures.
materials systems and essential mechanisms for novel brain-like computing identified
Grafting isolated copper atoms onto 2D polymer templates produces a highly efficient catalyst for converting carbon dioxide into methane.
By dispersing single atoms of platinum on a sheet of molybdenum sulphide, researchers have developed an inexpensive catalyst for splitting water.
Researchers have shown that an alloy of nickel and gold displays particularly promising thermoelectric properties.
Researchers have discovered that the ferroelectric behavior of hafnia is coupled to its surface and can be tuned by changing the surrounding atmosphere,
A hybrid catalyst comprising a layer of zinc on copper can efficiently convert carbon dioxide and waste nitrogen into the fertilizer urea.
Researchers have discovered that a layered nickelate could form the basis for a novel form of non-volatile phase change memory.
Researchers have developed a novel catalyst for reducing carbon dioxide by loading silver nanoparticles onto a titanium dioxide support.