It is really a great property of being able to use a single atom of Molybdenum disulfide, this will help a lot in miniaturization of the products as compared to silicon. But I think it will take a lot time to come out with a working commercial device made up of this material.
Yes, he must be referring to DMSO, an analog of acetone with the oxygen replaced by sulfur. And his second goof is also wrong. Hydrogen disulfide would be the analog to Hydrogen peroxide which decomposes to hydrogen sulfide, (more toxic than hydrogen cyanide but stinks so bad it's generally safer to have around) So don't put it on your sore muscles!
Yeah, the present use of Molybdenum sulphide is as the high temperature tolerant lubricant. Hence if this is used as an alternative to the semiconductor material, the components made out of it should be capable of operating at high temperature. Disadvantage is that MoS2 could react with oxygen and generate sulfur dioxide.
Thanks for reading the story and connecting. I find it fascinating that this material can be used with graphene for future electronic applications. It's his kind of 'innovation w/o borders' that keeps the science and engineering moving along. Never mind that the real applications will only be consumed by our great-grandkids, if ever. Keep churning, researchers!
MoS2 is also a "super solvent", capable of carrying anything dissolved in it directly to the bloodstream if in contact with the skin. By itself, it is pretty innocuous, but this side-effect makes it a dangerous substance. In the 1960's era it was used as a vector for assassinations and surreptitiousness drugging of people.
What are the engineering and design challenges in creating successful IoT devices? These devices are usually small, resource-constrained electronics designed to sense, collect, send, and/or interpret data. Some of the devices need to be smart enough to act upon data in real time, 24/7. Specifically the guests will discuss sensors, security, and lessons from IoT deployments.