Aluminum or other atom hydrophilic or electrically charged head, or at another solvent like NH3 or DMSO, Or silicone oil, charged silicone distal electronegativity oil, make liposomes or things like silicosomes with reactants at the liposome or
silicosomes cores, sequential liposome or silicosome dipping might even combine reactants that are non able to occupy the same flask, then a detonation, warmth occurrence, photochemistry, like lasers event, or radiation occurs and the comparatively few
atoms interior to the liposome react to form a product at the core of the liposome, liposomes are kind of see through and liposomes can be sorted with a spectrophotometer at a thing like a flow cytometer, or possibly liposomes or silicosomes could have
surface charge that varies with core contents possibly from making the silicosome with 1/100th highly C=C saturated with NH on it or zubbles (TM a kind of plaything) like chalcones, which are so responsive that without disintegrating they change color
based on surface tension) then based on what is in the liposome the surface chemistry differs facilitating sorting, a trillion liposomes with 1000 reaction production product molecules each makes about 2^14 atoms or a billionth of a mole, at a 100 amu
product that is 1 microgram of product, flow cytometry to centrifuge

Silicosomes can be made with solventophilic heads and multimers with electronegative (like nitrogen, phosphorus, metals, Se ) atom heads, it is possible to omit carbon funkiness (what happens after an actual lipid liposome is warmed or disintegrated with
light or radiation), the non interactivity of the reactant molecules with the Si silicosomal interior perimeter makes things cleaner

The reacted silicosomes do a laser spectroscopy and flow cytometry like traversal of a tube and are sorted into products, so a reaction that yielded 100 products then produces 100 different separated products, possibly a million at a microfluidic device (
a million channel microfluidic chip I read about), and if these are products like longevity chemicals they can then move to an organism area to find out if they are longevizing, so 1 million varieties of halogenated rapamycin can be silicosomal reaction
produced, spectroscopy sorted, then applied to yeast or human tissue culture microfluidically, a trillion silicosomes could be 1 microgram of product, at a 300 mm wafer with 10-100 billion wells per chip, 1 million variants of longevity molecules tested
per notable source, things like endolith chemicals autovariationized is 10k sou

Longevity technology
Yeast have longevity chemical responses, find another organisms, possibly even another yeast, that responds like yeast to a library of 10k different chemicals but has a 4 hour lifespan, also verify that when tested at the 4 hour lifespan 40-100 different
longevizing remain longevizing, then use that organism to screen new longevity chemicals in just 4800 minutes to 240 minutes each, so at the reacted sorted liposomes microfluidically connected to a 10 billion well yeast IC plate then after just 1/3 of a
day you would be able to know longevity had more than doubled, and based on well location, which chemicals were associated with the longevity heightening, and then make a completely new liposomal reaction 10 billion chemical library to screen on another
plate, that screens about 30 billion new longevity chemicals each 24 hours or 1 trillion new longevity chemicals a month

Are buckycup liposomes possible
That's like 1 nm or less buckycup like electron wave concentrating semiconductor manufacturing chemical or nano technological reaction/assembly, integrated circuit technology geometries technology

Noting 1 nanometer dots are likely possible with 3nm integrated circuit feature technology with a more casual error rate, then a 300 mm wafer has about 9 times 10^12 one nanometer features, a 1 nm diameter well 5000 nm deep (5 micrometers) is a stack
5000 molecules deep and one molecule wide (carbon 120 picometers, about 9 carbons to a well width) that could be sequentially piled up in the well to a depth and volume of 45,000 molecules, this makes me think of things like, load it up, use radiation to
initiate reaction or polymerization, or radiation to divide things like halogen atoms from their molecules to do new reactions, or load some areas with catalytic molecules like electrically addressable liquid crystal molecules with cobalt or Rh atoms on
it to do chemistry, may also be cycled between a temperature with 1/2 the reaction rate and one with the full reaction rate to load it when cool, light and charge based reactions are also cool,

One use for this is to screen libraries of high utility chem

Doped si features at sides of each well could make sides of well electronegative or electropositive or provide a surface with spin polarization particularity, or have light emitting diode sides to place full circumference illumination at each well

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