After more than a month of wandering around Al Mag, I’m finally moving into my renovated lab! That means I’m going to spend the majority of the day carting chemicals back and forth and attacking things with a label maker. Unpacking boxes also means finding objects that have been hiding in a lab for 20 years and attempting to find a spot for them. How am I supposed to categorize an old computer mouse, a pink geode crystal that looks like it was purchased from an aquarium, and a mysterious wooden box labeled ‘government property?’
Max is not having nearly as much fun as I am this summer — he suddenly entered a coma during one of our trials. He refused to respond and is currently in New Jersey seeking treatment.
Although this tragedy set us back quite a bit, Roger Williams University down the road in Bristol, R.I., offered for us to come down and use their fluorometer while Max is recovering. We’ve also spent some time at URI this summer — proving that science really is about collaboration. That chemistry collaboration also exists within the Providence College Department of Chemistry and Biochemistry. There’s actually so much collaboration that I convinced my fellow researchers in the department to star in a little video that I decided to make one afternoon as a spoof of The Office.
Despite taking group trips to the grocery store, going on coffee runs to several different places, and hanging out with friends and seeing Finding Dory (in addition to shooting and editing that entire video), I promise I do actually get work done in lab. We just finished collecting all of the data for the Extended Lipid Hypothesis project last week and are slowly chipping away at writing the paper. I consolidated all of the data into graphs for the easiest display and wrote the “experimental,” or the procedure, so far. Hopefully it’ll be published in time for me to apply to graduate school!
Since I’m done collecting data for that project, I’m focusing more heavily on my second project while the paper is coming together. The second project I’m working on consists of radiating different plastics, specifically polystyrene and PMMA (polymethyl methacrylate) with UV light and observing how their chemical structure changes as a result. When plastics come in contact with UV light for an extended period of time, the UV light breaks weaker bonds in the structure of the plastics and creates substances with odd-numbered electrons known as free radicals. These free radicals then react with the other particles of plastic and with each other — altering the chemistry of the plastic.
We monitor the plastics, furthermore, in water, and eventually hope to study this degradation of plastic in a mock-ocean environment. That way we can hope to better understand how plastics in our ocean affect the environment so we can work on preventing those effects!
That’s all for now. Stay tuned for more information on my summer research in Friartown (and the much more important Chemistry vs. Biology wiffle ball game rumored to happen this weekend)!