1. Enhanced Room-Temperature Ionic Conductivity of NaCB11H12 via High-Energy Mechanical Milling
- Author
-
Fabrizio Murgia, Matteo Brighi, Laura Piveteau, Claudia E. Avalos, Valerio Gulino, Marc C. Nierstenhöfer, Peter Ngene, Petra de Jongh, and Radovan Černý
- Subjects
NaCB11H12 ,Hydroborate ,Na+ superionic conductor ,General Materials Science ,ddc:500.2 ,Boron chemistry ,Solid electrolyte ,Mechanical milling - Abstract
The body-centered cubic (bcc) polymorph of NaCB11H12 has been stabilized at room temperature by highenergy mechanical milling. Temperature-dependent electrochemical impedance spectroscopy shows an optimum at 45-min milling time, leading to an rt conductivity of 4 mS cm−1. Mechanical milling suppresses an order−disorder phase transition in the investigated temperature range. Nevertheless, two main regimes can be identified, with two clearly distinct activation energies. Powder X-ray diffraction and 23Na solid-state NMR reveal two different Na+ environments, which are partially occupied, in the bcc polymorph. The increased number of available sodium sites w.r.t. ccp polymorph raises the configurational entropy of the bcc phase, contributing to a higher ionic conductivity. Mechanical treatment does not alter the oxidative stability of NaCB11H12. Electrochemical test on a symmetric cell (Na|NaCB11H12|Na) without control of the stack pressure provides a critical current density of 0.12 mA cm−2, able to fully charge/discharge a 120 mA h g−1 specific capacity positive electrode at the rate of C/2.
- Published
- 2021
- Full Text
- View/download PDF