GENESIS EFRC

Convex hulls, chemical potential triangles, alternative thermodynamic potentials, formation vs. decomposition enthalpies... if these constructs seem confusing to you, you're not alone. Fear not, for our very own @ChrisJBartel eloquently provides clarity in his recent review:

The team made some films which were thin with sodium and sulfur within Two different phases were carefully made and such are characterized herein Congrats to the team for another excellent publication highlighting the work of early career researchers! https://t.co/Kwl0LLNIcs

In our latest paper lead by Alicia Baccarella, we explore the intermediate clusters which are essential to forming crystalline AlOOH in hydrothermal conditions. Great work by the team! https://t.co/FA4hA8LtDf

Congrats to GENESIS researcher Gabrielle Kamm, who was selected to receive the Graduate Research Empowering and Accelerating Talent (GREAT) award from the SUNY system. A well deserved recognition for an outstanding team member!

Two salts are better than one! Learn how to lower reaction temperatures and increase reaction selectivity through the readily applicable technique of "cometathesis" in the latest paper from the GENESIS team! https://t.co/yP9IvE4ej3

Conversion reactions may be best known for their battery applications, but they can also be a useful synthetic technique. Using selective reduction, our team supported Co nanoparticles on a ZnO framework, resulting in an effective catalytic system! https://t.co/HjyAFctmf8

When studying crystal growth, its easy to get buried under a mountain of data. Fortunately, our team has developed automated tools to map crystallite positions in a sample, greatly simplifying data analysis. Read more here! https://t.co/rwL9BHOhzC

Need to measure a reaction intermediate with a short lifetime? By using a flow reactor, the GENESIS team developed methods allowing for the observation of intermediates with shorter life times than the detection technique! Read more here https://t.co/eleIBnbeDd

Inside of a floating zone A crystal is failure prone Which parameters matter? Which make the zone splatter? And which grow the perfect gem stone? Find the answer to these questions and more in our latest GENESIS publication! https://t.co/Cea84s82Jy

Come join our team! Genesis is recruiting a post-doc to study nucleation, growth and phase differentiation in solution synthesis at Stony Brook University. Apply by April 8th. https://t.co/4qHOGXWohW

Fresh off of our second virtual All Hands Meeting, GENESIS is embracing the virtual age and joining Twitter! Follow so you can be updated when all of the awesome work we just spent 3 days discussing is published!