I know the units are moles but I am shortening it by saying Molarity instead of moles/liter. 2 M is the same thing as 2 moles/liter.
I am not saying that only liquids react. I am just saying that liquid is the optimal state of reaction.
I know that this will happen because chlorine reacts with just about anything.
Now the most likely form of phosphorus I will use is phosphate. That is cryogenic because of all the oxygens. That will give me phosphorus and oxygen for forming things with phosphorus and forming things with oxygen.
I am wanting to use STP because that is the easiest to use. I am also not wanting aqueous because a lot of it is nonpolar.
Thus my reasoning towards liquids.
As far as what to use I am starting with Chlorine and seeing what forms, than siphoning the alkanes, alkenes, and alkynes into separate vessels where I put the oxygen. After that I look at what forms and what doesn't for the oxygen and siphon a specific type of compound with oxygen into a vessel and do that for all the oxygen compounds and same goes for nitrogen, boron, and phosphorus.
So my heriarchy of siphoning and reacting is this:
Initial reactions :rarrow: Alkenes, Alkynes, Alkanes in separate vessels reacting with oxygen :rarrow: Separate types of oxygen compounds reacting with nitrogen in separate vessels :rarrow: Separate types of nitrogen compounds reacting in separate vessels with phosphorus :rarrow: Separate types of phosphorus compounds reacting with boron in separate vessels
and so it is like a tree of reactions with the most being siphoned at the oxygen, than less with nitrogen than less with phosphorus, than less with boron sort of like an upside down binary tree