A wonderful crystal my graduate student Jacob Fritsky grew. Look at those faces!
Jason Khoury
The Khoury Lab went bowling! We had a friendly competition with the Trovitch and Earley Groups in a joint outing.
Jason Khoury
Our first paper from the lab is officially published! Glad to finally see this out. Check out Jacob Fritsky’s work and stay tuned for more 👀
pubs.acs.org/doi/10.1021/...
pubs.rsc.org/en/content/a...
The second paper from our group is officially online! It’s part of the 2026 Emerging Investigators collection in Journal of Materials Chemistry C. Check it out here:
I’m excited to give a talk at the Angular Momentum Webinar next week! Be sure to register if you want to hear about our most recent publication.
Jason Khoury
In this manuscript, we show how preferential crystallographic occupancy can act as a design principle to tune different magnetic phases. Check it out!
I can confirm, this makes my day every time it happens. The only bummer is when you realize that you published in a journal many people don’t have a subscription to, which lowers your readership.
Our outreach at the Arizona Science Center has been featured in ASU News! We developed solid state chemistry demonstrations for people all throughout the Phoenix area. Check it out:
news.asu.edu/b/20250604-g...
The second preprint of the Khoury Lab is up on arxiv! Postdoc HuiFei Zhai showed how mixed-valent Ce disrupts magnetic order in CeFe2Ga8. Check it out:
arxiv.org/abs/2511.04894
arxiv.org/abs/2507.13243
The first Khoury Lab preprint is officially online! This is my first paper as corresponding author, and my graduate student Jacob’s first first author paper.
Jason Khoury
Jason Khoury
Jason Khoury
Jason Khoury
Jason Khoury
Jason Khoury
Jason Khoury
pubs.acs.org
An important aspect of materials research is the ability to tune different physical properties through controlled crystallographic site substitution. The Remeika phase Ln3M4X13 (Ln = Lanthanide, M = T...
Mixed valency in intermetallics with lanthanide cations is well established as a pathway to unusual charge transport, complex magnetism, and superconductivity. In this work, we report a comprehensive ...
