«Rethinking silicon»: scientists have learned to control electrons as a wave
American scientists from the University of California, Riverside have discovered a new way to control electrons in crystalline silicon — a key material widely used in modern electronics.
Terahertz instead of gigahertz — quantum material speeds up transistor switching by 1000 times
Researchers from Northeastern University in the United States have found a way to speed up electronics by a thousand times by replacement of silicon chips on quantum materials.
Indium oxide replaces silicon in a new transistor by Japanese scientists
Researchers from the Institute of Industrial Sciences of the University of Tokyo have developed powerful transistor, by replacing silicon with a crystalline material — gallium-doped indium oxide.
The future of processors: MIT has developed a technology for creating chips from gallium nitride
Researchers from the Massachusetts Institute of Technology (MIT) in the United States have developed a relatively inexpensive and scalable technology for combining high-speed gallium nitride transistors with standard silicon chips.
New solar cells on crystals are 1000 times more efficient than silicon ones
German researchers from the Martin Luther University of Halle-Wittenberg presented a new type of solar cells based on layers of nanocrystals.
The world’s first computer made of 2D material is created without silicon at all
Researchers from the Pennsylvania State University in the United States have created the world’s first computer made of two-dimensional materials without the use of silicon.
Organic solar panels reach 8.7% efficiency for the first time — twice the previous record
Japanese scientists have created all-organic solar cells made of carbon-based materials with a record efficiency of 8.7% for this type of cell.
A breakthrough in the creation of perovskite solar cells — applied to complex surfaces and working 10 times longer
Scientists improved perovskite solar cells, increasing their service life by 10 times compared to their previous counterparts.
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