This latest Chemunicate graphic (the Compound Interest side project that works with chemistry researchers and institutions to highlight their research in graphical form) was made for the Cambridge Crystallographic Data Centre, and takes a look at a particular computational method that can be used to assist in the discovery of drug molecules.
This week (31 Oct – 6 Nov) is #RealTimeChem Week – if you’re a tweeting chemist or chemistry enthusiast, you’ll probably know what that is already, but if you’re not familiar with it check out the FAQ here! Like last year, I’m creating graphics showcasing the work of the three winners of the #RealTimeChem week competition I ran earlier in October – hopefully explaining cutting edge research in easily understandable terms!
This week (31 Oct – 6 Nov) is #RealTimeChem Week – if you’re a tweeting chemist or chemistry enthusiast, you’ll probably know what that is already, but if you’re not familiar with it check out the FAQ here! Like last year, I’m creating graphics showcasing the work of the three winners of the #RealTimeChem week competition I ran earlier in October – hopefully explaining cutting edge research in easily understandable terms!
This week (31 Oct – 6 Nov) is #RealTimeChem Week – if you’re a tweeting chemist or chemistry enthusiast, you’ll probably know what that is already, but if you’re not familiar with it check out the FAQ here! Like last year, I’ll be creating graphics showcasing the work of the three winners of the #RealTimeChem week competition I ran earlier in October – hopefully explaining cutting edge research in easily understandable terms!
Here’s the latest graphic from Chemunicate (the Compound Interest side project that works with chemistry researchers and institutions to highlight their research in graphical form). This graphic is a collaboration with the Cambridge Crystallographic Data Centre (CCDC) and looks at their recent research on capturing neon in a metal-organic framework – and why it matters! You can read the CCDC’s press release for the study here, and the study itself can be found here.
You might recall a month or so ago I started a new project on the site, Chemunicate, with which I aim to work with chemistry researchers and help produce graphics explaining their work in a straightforward manner. This graphic is the result of a collaboration with scientists from the University of Hull, and explains their study in which they examined how ocean acidification could affect the chemical senses of marine organisms.