In a world first, a team led by researchers at Penn State used two-dimensional materials, which are only an atom thick and retain their properties at that scale, unlike silicon, to develop a computer capable of simple operations. The advancement, published in Nature, represents a major leap toward the realization of thinner, faster and more energy-efficient electronics, the researchers said.
I was thinking more about the availability of “molybdenum disulfide and tungsten diselenide” opposed to silicon, they don’t sound exactly like Home Depot stuff.
Fair point. From what I can tell, refined tungsten is actually an order of magnitude cheaper(!) than refined silicon, but molybdenum is over two orders or magnitude more expensive. ~300USD per ton, ~2000USD per ton and ~60000USD per ton respectively.
I assume that if this got up to scale industrially, savings could be made by recycling high purity molybdenum waste, but yes, it’s not going to be cheap.
Modern transistors aren’t just silicon though. The silicon is doped with various materials, presumably gallium, boron, arsenic, phosphorus, and cobalt, among other elements.
Exactly… the price of these new materials/CPUs isn’t in the amount of “exotic” elements, which is barely measurable on a per-unit basis, but in the production.
I was thinking more about the availability of “molybdenum disulfide and tungsten diselenide” opposed to silicon, they don’t sound exactly like Home Depot stuff.
CPUs are not made in a home depot.
Hah, maybe not where you live.
Fair point. From what I can tell, refined tungsten is actually an order of magnitude cheaper(!) than refined silicon, but molybdenum is over two orders or magnitude more expensive. ~300USD per ton, ~2000USD per ton and ~60000USD per ton respectively.
I assume that if this got up to scale industrially, savings could be made by recycling high purity molybdenum waste, but yes, it’s not going to be cheap.
Modern transistors aren’t just silicon though. The silicon is doped with various materials, presumably gallium, boron, arsenic, phosphorus, and cobalt, among other elements.
https://en.wikipedia.org/wiki/Doping_(semiconductor)
But material costs don’t matter much in computer pricing.
Exactly… the price of these new materials/CPUs isn’t in the amount of “exotic” elements, which is barely measurable on a per-unit basis, but in the production.