The non-professional side of Organic Chemistry is one place where I think AI would really shine.
Feels complex like solving a Rubik's cube to write down synthesis steps but it is all a sequence of memorized tricks. Do Cannizaro if you want this, Bergmann to do that.
But the synthesis plan is only 10% of the actual work.
The gap between writing down the synthesis step and actually doing it is also extremely large.
Even if you get the right molecule, it might be the wrong way around or just clump up into a useless mess.
The Ritonavir episode of Veritasium is a great example of how all chemistry on paper is a mere shadow of what actually happens in real life.
Organic chemistry seems like a discipline better done by chemists than forward deployed staff with their payoff function sharply truncated at an IPO which at this point may or may not happen on schedule.
Modern biochemistry (so far) IS vibe coding lol. You mostly have vibes on how the chemistry should work, based on (very strong) natural evidence coupled with theoretical development and lab studies. Then you mix and match, goading bacteria and praying that they produce what you want in good measure. Then you take their secretions and run chromatography studies on them to check if that's what you actually want, or whether it's just some random bullshit. If it's the latter, you have to toss that out and start all over again.
Feels complex like solving a Rubik's cube to write down synthesis steps but it is all a sequence of memorized tricks. Do Cannizaro if you want this, Bergmann to do that.
But the synthesis plan is only 10% of the actual work.
The gap between writing down the synthesis step and actually doing it is also extremely large.
Even if you get the right molecule, it might be the wrong way around or just clump up into a useless mess.
The Ritonavir episode of Veritasium is a great example of how all chemistry on paper is a mere shadow of what actually happens in real life.