leplen

Molecular nanotechnology, or MNT for those of you who love acronyms, seems to be a fairly common trope on LW and related literature. It's not really clear to me why. In many of the examples of "How could AI's help us" or "How could AI's rise to power" phrases like "cracks protein folding" or "making a block of diamond is just as easy as making a block of coal" are thrown about in ways that make me very very uncomfortable. Maybe it's all true, maybe I'm just late to the transhumanist party and the obviousness of this information was with my invitation that got lost in the mail, but seeing all the physics swept under the rug like that sets off every crackpot alarm I have. I must post the disclaimer that I have done a little bit of materials science, so maybe I'm just annoyed that you're making me obsolete, but I don't see why this particular possible future gets so much attention. Let us assume that a smarter than human AI will be very difficult to control and represents a large positive or negative utility for the entirety of the human race. Even given that assumption, it's still not clear to me that MNT is a likely element of the future. It isn't clear to me than MNT is physically practical. I don't doubt that it can be done. I don't doubt that very clever metastable arrangements of atoms with novel properties can be dreamed up. Indeed, that's my day job, but I have a hard time believing the only reason you can't make a nanoassembler capable of arbitrary manipulations out of a handful of bottles you ordered from Sigma-Aldrich is because we're just not smart enough. Manipulating individuals atoms means climbing huge binding energy curves, it's an enormously steep, enormously complicated energy landscape, and the Schrodinger Equation scales very very poorly as you add additional particles and degrees of freedom. Building molecular nanotechnology seems to me to be roughly equivalent to being able to make arbitrary lego structures by shaking a large bin of lego in a pa