@steko Not yet, but there will be at some point through my university library. I can also email you a copy if you want.

@steko Might be a while though, I know my boss is a bit slow on that. If you want an copy I can email you the preprint.

@Canageek sorry for the tone of my previous toot: I was just exploring academic content on the fediverse and I took a chance to promote #openaccess (not in a very effective way). The paper is easily found via Sci-Hub btw 😉

@steko That is oddly fast. o.0

Anyway, we legally have to put it up eventually, since we are funded by NSERC. So it will be in SFU's library archive whenever my boss gets around to doing the paperwork. >.>

@steko (In case you didn't know, any paper funded by NSERC, the main Canadian science funding agency must eventually be open access.)

@susannah Non-scientist explanation:

Coordination polymers are a class of material where I take a couple of units and link them together into a larger structure. Think of lego, where I can take two different shapes and link them into a larger structure. In this case, I'm making long stacks of them, or chains. So think of me linking together a bunch of 2x2 green lego squares and 2x4 black lego rectangles.

@susannah The building blocks I'm using are a gold compound known as "Dicyanoaurate" and a uranium compound known as uranyl.

Dicyanoaurate is a long stick made of gold and cyanide that links to other things at the ends. Uranyl is a stick as well, made of uranium and oxygen. However, it likes to attach to other things around its middle.

@susannah So I've combined these in a number of ways that haven't been done before, and this is interesting as there has been very little work in this area with uranium, and if we know enough about how uranium and other things like to stick together we can start designing useful materials made of these things.

@susannah Also, I did a very simple and interesting reaction that happens when you put uranyl in light with water around, and while this has been known for a long time, to do it on a useful scale you normally need to add some powerful chemicals, and I did it without those.