Simulations identify a proton slingshot mechanism in solid acid electrolytes involving polyanion-assisted motion and reorientation, with material differences tied to proton concentration that challenge the revolving paddlewheel model.
InEuropean Powder Diffraction 3; Trans Tech Publications Ltd; Materials Science Forum, Vol
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Revealing the proton slingshot mechanism in solid acid electrolytes through machine learning molecular dynamics
Simulations identify a proton slingshot mechanism in solid acid electrolytes involving polyanion-assisted motion and reorientation, with material differences tied to proton concentration that challenge the revolving paddlewheel model.