Download net framework 2.0 for windows 10 64 bit
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Microsoft .NET Framework Version 2.0 Redistributable Package (x64)
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Scientists have figured out how to revive Moore’s Law. Proposed technology for the production of atomic transistors
A group of scientists has proposed a technology for manufacturing transistors with channels of atomic thickness. This promises the highest switching speed, dramatic reduction in leakage currents and scalability of transistors to sizes that are unattainable for classic technological processes. In fact, scientists set out to extend Moore’s law, and all thanks to liquid metals, which they decided to use instead of conventional deposition from a gaseous environment.
A semiconductor grows like skin on the surface of a liquid metal .Image source: Mohannad Mayyas
In gaseous deposition of materials onto a substrate, it is difficult to achieve uniformity for very fine deposition — literally atomic size. It is also fraught with defects, which can also be blamed on the extremely small thickness of the spraying. A group of scientists from Australia and the United States have jointly developed a method that can create a defect-free layer of an atomic-thickness semiconductor on almost any substrate — literally a 2D material. A transistor channel made of such a material will have excellent conductivity and extremely low scattering, since there is only one path for electrons in it and it is about one atom thick.
To create a semiconductor 2D element on a substrate, it was proposed to use a liquid metal, in particular, metallic gallium with a melting point of 29.8 ° C. The forces of surface tension of a metal in the liquid phase make it ideal for the formation on its surface of solid — without grain boundaries — polycrystalline compounds. Such a promising compound, for example, is molybdenum disulfide (MoS2). In the presence of sulfur and molybdenum, the surface of metallic gallium saturated with free electrons easily forms on itself a continuous and thinnest semiconductor layer MoS2. It’s as easy as pulling a glove over your hand.
MoS2 semiconductor film is also easily removed from liquid metal due to electrostatic forces. It simply goes over to an electrified non-metallic substrate, which can be silicon, glass, plastic, or something else. Thus, by the way, this method of deposition of 2D materials can become a great impetus for the development of flexible electronics.
At the next stage, scientists are going to find technologies for the deposition of 2D materials with the properties of conductors and insulators, for which they consider materials such as gallium arsenide, gallium sulfide, indium and tin oxides. Also, the researchers are going to adapt the proposed technical process for use in the factory, and not in the laboratory. They hope that in a few years the production of chips with transistors from 2D materials can become a reality.