Dispersion and Stabilization of Alkylated 2D MXene in Nonpolar Solvents and Their Pseudocapacitive Behavior
Michael Carey, Zachary R. Hinton, Varun Natu, Rahul Pai, Maxim Sokol, Nicolas J. Alvarez, Vibha Kalra, Michel W. Barsoum
Abstract
To date, MXene dispersions have been mostly limited to polar solvents. Here, we show that when the lithium cations present between MXene multilayers after etching are exchanged with di(hydrogenated tallow)benzyl methyl ammonium chloride (DHT), they become organophilic and form highly stable colloidal suspensions in nonpolar solvents. The rapid cation exchange occurs under ambient conditions and the resulting two-dimensional flakes are well dispersed and remain oxide free. A 142 ± 0.7-μm thick film (≈10 mg ⋅ cm−2) made from a DHT-Ti3C2Tz suspension in toluene exhibits pseudocapacitive behavior, with a capacitance of 305 F ⋅ g−1 at a scan rate 2 mV ⋅ s−1. The moduli and tensile strengths of solution-processed polyethylene nanocomposites are increased by ≈11% and 32% with a loading of ≈1 vol% DHT-Ti3C2Tz. Our approach may enable the use of MXenes in multiple research and industrial fields.