MRS Postdoctoral Award winner Aditya Sood: buff.ly/3wlp75y #s22mrs Materials Research Society (MRS)

Quantum dots and #nanophotonics enable a new kind of CMOS-based #terahertz camera: Nature Nanotechnology by Nelson & Bawendi teams MIT Chemistry Bulović MIT EECS Peraire group MIT AeroAstro Lindenberg Ultrafast Group Samsung Electronics College of Sci & Eng nature.com/articles/s4156…

Congrats Yijing! The work defines new means for manipulating and imaging non-equilibrium phases of matter.

How is energy dissipated when electrons hop across an interface? My postdoc work on visualizing #ultrafast heating with atomic precision in #2Dmaterials is now out in Nature Nanotechnology! Paper: rdcu.be/c12DJ SLAC Stanford Materials Science and Engineering Berkeley Lab funded by DOE Office of Science (1/n)

🔬 Visualizing ferroelectric domains at lightning speed and tiny scales? Using nanoprobe hard X-ray diffraction and X-ray diffuse scattering Advanced Photon Source, we've achieved 100 ps time and 25 nm spatial resolution imaging. Now out in Advanced Materials: onlinelibrary.wiley.com/doi/abs/10.100…

Time-resolved measurements show that coupling between electrons and phonons in lead halide perovskites can mediate attractive interactions between excitons, although the interaction strength depends on the specific material. go.nature.com/40CjjmU

📢Happy to share our paper in nature: 'The persistence of memory in ionic conduction probed by nonlinear optics'. Study led by Andrey Poletayev at Oxford Materials SLAC in collaboration with Lindenberg Ultrafast Group at Stanford Materials Science and Engineering & James A. Dawson at Newcastle Chemistry Link nature.com/articles/s4158…

A #battery’s hopping ions remember where they’ve been Seen in atomic detail, the seemingly smooth flow of ions through a battery’s #electrolyte is a lot more complicated. Read the news SLAC: www6.slac.stanford.edu/news/2024-02-1…