youtube.com/watch?v=-rFp... #Intel pioneering #copolymer approaches to DSA (direct self assembly) where atomic level forces assemble #semiconductor traces on a pattern EUV establishes. This may continue #MooresLaw to 2040 if it pans out, but yields & cost & durability questions yet to be resolved.

The Next Chip Breakthrough Is ...

www.pv-magazine.de/2026/03/02/w... #Solarenergie #Copolymer #H2 #Wasserstoff #Energiespeicher #Forschung #Energiewirtschaft

Wasserstoff aus Solarenergie: ...

Okay, so, we did a thing. Writing a post a few weeks later as the manuscript is up in its properly styled electronic form. Here is a new #article on #electrochemical #copolymerization of #hydroquinone and #PEDOT, which is essentially its title. Apart from checking whether it's actually a #copolymer (rather than a composite), we adjusted synthesis parameters, studied charge transfer a bit, and threw in a little something regarding probable use as an #energy storing #ElectrodeMaterial.
There are also bits and pieces of other methods relevant to our ongoing projects, but the most curious thing for me personally (and the one that led me to near-exhaustion a few times when I thought that a fluke is an “aha!” moment) is the possibility of mixing two relatively simple compounds, bashing them with pulsed potential repeatedly and getting an outcome of a nice capacitive/conducting PEDOT response, on top of which we can have however much we want (well, up to about two-thirds) redox response of hydroquinone.
Anyway, we’ve been cooking for 2 years, because each time something happened, it did the result more interesting, until we were finally—well, not satisfied exactly—but sure that it would be compelling as a published article.
The link is here:
https://doi.org/10.1039/D4TA07307J