semiconductor technology:
From
Treon Verdery@21:1/5 to
All on Tue Feb 28 19:49:05 2023
An Si atom is 110 picometers large, so if you can arrange them any way you like, then a bunch of Si atoms that are at the distal tip of a bunch of alkane like rods, to stick up and be relaibaly equispaced, sort of like the way phospholipid lipid layers
have a ===C way of aligning as a
Picometer semiconductor technology: lipid ====C rod layer with distal atom top side up, then lasers, quantum camera spin writing surface action or plasmonics, or reaction torus in the middle of lays on top of it graphene planar form, changes the C to an
Si, Ge, Se, P, N, Al, or other semiconductor atom causes purposefully patterned 110-220 feature sized electron motioninging suface patterns on a thing, which has the same function as a semiconductor, notably as compared with a lipid ====c layer you could
have silicon polymer, or possibly even boron polymer (boron polymerizes) rods with an atom at the tip, then you change the atom, to make the outer layer surface geometry; notably at he middle of the =====C or ====Si or ====Ge thing you could put other
atoms to put stabilization rungs on it transversely, notably whether you removed a the top of a =====Rb, or possibly a =====I, then put a rung atom or few AMU molecule, then put more === on it, or put a K=====Ge or K====Si (or a I====Ga) on it, you make
it so the rods could have sufficient rigidity to be nude sunbatyher at Santa barbara California preferred temperature stable, whith the topmost layer of atoms being patterned to do electrical circuits
--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)
From
Treon Verdery@21:1/5 to
All on Tue Feb 28 23:54:44 2023
An Si atom is 110 picometers large, so if you can arrange them any way you like, then a bunch of Si atoms that are at the distal tip of a bunch of alkane like rods, to stick up and be relaibaly equispaced, sort of like the way phospholipid lipid layers
have a ===C way of aligning as a
Picometer semiconductor technology: lipid ====C rod layer with distal atom top side up, then lasers, quantum camera spin writing surface action or plasmonics, or reaction torus in the middle of lays on top of it graphene planar form, changes the C to an
Si, Ge, Se, P, N, Al, or other semiconductor atom causes purposefully patterned 110-220 feature sized electron motioninging suface patterns on a thing, which has the same function as a semiconductor, notably as compared with a lipid ====c layer you could
have silicon polymer, or possibly even boron polymer (boron polymerizes) rods with an atom at the tip, then you change the atom, to make the outer layer surface geometry; notably at he middle of the =====C or ====Si or ====Ge thing you could put other
atoms to put stabilization rungs on it transversely, notably whether you removed a the top of a =====Rb, or possibly a =====I, then put a rung atom or few AMU molecule, then put more === on it, or put a K=====Ge or K====Si (or a I====Ga) on it, you make
it so the rods could have sufficient rigidity to be nude sunbatyher at Santa barbara California preferred temperature stable, whith the topmost layer of atoms being patterned to do electrical circuits
--- SoupGate-Win32 v1.05
* Origin: fsxNet Usenet Gateway (21:1/5)