Balsara Lab

Another paper from Zach! He measured the Sand's time of polymer electrolytes and compared it to predictions from concentrated solution theory and found they match qualitatively. He also derived a general analytical expression for Sand's time Link here: https://t.co/IMyjr43Xvq

Cool paper out from Alec - using X-ray microtomography he measured the ionic current densities with high spatial resolution in a battery at rest. Important takeaway - even at rest there can be extremely large local current densities from lithium plating. https://t.co/224m3jiAxC

In new work from Zach, he used Raman Spectroscopy to measure the salt concentration profiles in polymer electrolytes. The measured profiles agree qualitatively with the theoretical profiles from concentrated solution theory. Read it here: https://t.co/pDxabZTmy6

Another new paper from Saheli and Chao combined WAXS and MD to identify how the solvation cage of lithium changes between two polymer electrolytes. Interestingly, the anion is only involved in the solvation cage in one of them. Read it here: https://t.co/hLMvniAP2O

Jackie's final paper from the Balsara group is now out - she used time-resolved X-ray tomography to study lithium protrusions. Cool application - see how different factors influence local rates of the electrochemical reaction in the cells. Here's the link: https://t.co/8zROtm3rnQ

Lots of updates with new papers - first up we have recent work from Saheli looking at lithium transference in star-shaped multivalent anions and found that slow self-diffusion of bulky anions doesn't necessarily improve lithium transference. Read it here: https://t.co/jXtDC4tGdI

New paper form Neel out now! Neel and his collaborators systematically analyzed the effect of added salt on a miscible polymer blend electrolyte system, calculated thermodynamic interaction parameters, and created a model for blends phase behavior. https://t.co/enxDv70xNr

After Zach’s talk stay in room 207 to see Jaeyong talk at 12:06pm about his work with studying ion transport and phase behavior in acetal-based polymer electrolytes!