![]() The interior of the higher step is a literal sandwich of aluminum covered in aluminum oxide, which rests on top of a graphene sheet-a single layer of carbon atoms. Both are made of a titanium palladium alloy separated by the surface of the stairs, which is made of a single sheet of a semiconductor material called molybdenum disulfide, itself resting on a layer of hafnium dioxide that acts as an electrical insulator. On the higher step, you have the source, and on top of the lower one, you have the drain. The structure of the side-wall transistor: The dark blue part is the silicon dioxide base, the brown is the aluminum covered in aluminum oxide, the thin, light blue strip is graphene, the yellow and black strip is molybdenum disulfide, and underneath it, you have the hafnium dioxide. This milestone was made possible by creatively utilizing graphene and molybdenum disulfide and stacking them into a staircase structure with two steps. In a paper released this week, Chinese researchers explain they've created a transistor with the smallest gate length ever reported. Materials like graphene and carbon nanotubes might be vital to making transistors even smaller thanks to their physical properties, but getting from there to building functional devices will take a while. More specifically, we can't make transistor gates-which control the flow of current from the source to the drain-much smaller than 5 nm because of something called quantum tunneling that prevents them from working as intended. The main reason is that we are quickly approaching the physical limits of what's possible with existing materials and the most advanced manufacturing processes we have. Ever since the first integrated circuits in the 1950s, the rate of progress in miniaturizing transistors has followed Moore's Law, which predicted the density of active components in integrated chips would double every two years.Īs many of our readers know, progress in this direction has slowed down significantly in recent years. Chipmakers are burning the midnight oil to miniaturize transistor designs, and a team of researchers in China have created what is believed to be the smallest one yet.įor several decades, scientists and engineers have been shrinking transistors to the point where their tiniest features are only comprised of tens of atoms. Why it matters: Moore's Law has been on life support for a while now, but it's not dead yet.
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