Check out Fang's newest paper where we describe new synthesis routes to make magnetic, Mn-doped SnS2 nanosheets. Our method makes it possible to increase the solubility on Mn4+ in SnS2. Chemistry of Materials pubs.acs.org/doi/full/10.10…

Finally it is official! Delighted to report that Leslie has been promoted to Associate Professor with tenure effective July first. Obviously this group deserves all the credit. Best lab ever!!! 🎉🥳😊

Registration is NOW OPEN! Aug. 1-5, 2022 Princeton Summer School on Condensed Matter Physics (PSSCMP): Hot 🔥Topic: "Hidden Correlations in Flat Bands" Attend in-person or remote! Open to grad students & postdocs! Poster session! Details: ow.ly/10Zi50JK2FY #PrincetonU

To improve your writing, read more. To improve your thinking, write more. To improve your storytelling, present more. To improve your understanding, teach more. To improve your network, give more. To improve your happiness, appreciate more. #Leadership

Check out Brianna's work about making thin sheets out of a 3D solid using a clever chemical route. Published in JPhys Materials' focus issue on Women’s Perspective in Quantum Materials. #WomenInSTEM iopscience.iop.org/article/10.108…

With postdoc Nitish Mathur and a collaboration with Song Jin , the Schoop lab is going 1D! Check out these nanowires that should contain internal Fermi arcs at their twin boundary. Nano Letters

Happy to share my paper in Schoop Lab, newly published in Nano Letters. We develop a robust method for atomic-resolution visualization of air-sensitive atomically thin materials. Check out our high-quality STEM images and remarkable findings, particularly in twisted-bilayer WTe2!

Most Read in the past 30 days! Check it out: "Atomic Resolution Imaging of Highly Air-Sensitive Monolayer and Twisted-Bilayer WTe2" by @FangYua16672278, Jia, Cheng, Ratnadwip Singha, Lei, Yao, Wu, & Schoop Schoop Lab go.acs.org/5Nh

After having studied rare earth tellurides and their Sb doped versions for a while, we now looked at rare earth diantimonides (NdSb2 here) and found that they also are low-dimensional high-mobility magnets. Find out more in Ratnadwip Singha's latest paper. onlinelibrary.wiley.com/doi/10.1002/ad…

Please read below the really fun story of we found, together with the Wu group, a new way to make 2D materials, where metals form shockingly uniform films on top of TMDs, well below their melting temperature.

Check out my new paper at Nature Synthesis. This collaborative work between @Schoop and Wu Lab details the controlled formation of a new 2D crystalline material, Pd7WTe2. Our approach can be generalized, promising to expand the 2D materials library and unlock new functionalities.

This year is ending on a high note as Associate Professor at Princeton Chemistry, Leslie Schoop, & Assistant Professor of Physics Sanfeng Wu stumble upon a groundbreaking transport process of atoms in 2D spaces, bringing unexpected surprises! Learn more here: chemistry.princeton.edu/news/happy-acc…

A "happy accident" from researchers at Princeton Chemistry and PrincetonPhysics has exciting implications for the synthesis of 2D materials and for unlocking new device functionalities: bit.ly/3RiZ5vx

Check out Mulan's new paper describing how chemical exfoliation can be used to make 1D nanostructures of ionically bound materials. And they can maintain their magnetism during the process! Published in Nanoscale journal family pubs.rsc.org/en/content/art…

Thank so much for the recognition Nanoscale journal family . Very happy to have received it.

A liquid-like spreading of metal atoms on a topological material can generate a superconductor—one that might benefit quantum computing. Read go.aps.org/3Xuw6s8 Physics Magazine go.aps.org/4exwEna Yanyu Jia Tiancheng Song Schoop Lab Fang Yuan Ratnadwip Singha