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Improved synthesis of Ti<sub>3</sub>C<sub>2</sub>T<sub>x</sub> MXenes resulting in exceptional electrical conductivity, high synthesis yield, and enhanced capacitance

Ali Shayesteh ZeraatiCalgarySeyyed Alireza MirkhaniCalgaryPengcheng SunBeckman Institute for Advanced Science and TechnologyMichael NaguibDepartment of Physics and Engineering PhysicsPaul V. BraunBeckman Institute for Advanced Science and TechnologyUttandaraman SundararajCalgary
2021en
ABI

Annotatsiya

For the first time, an "Evaporated-Nitrogen" Minimally Intensive Layer Delamination (EN-MILD) synthesis approach is reported to synthesize exceptionally high quality MXene sheets. In the EN-MILD method, the concentrations of acids and Li-ions are continuously increased during the etching process. By implementing the EN-MILD approach, the electrical conductivity increases up to 2.4 × 104 S cm-1, which is the highest reported value to date for Ti3C2Tx MXenes (a traditional MILD approach results in a conductivity of 5.8 × 103 S cm-1). This significant improvement in electrical conductivity arises from the high quality of the synthesized MXene sheets as well as a larger flake size. The EN-MILD synthesis approach also offers high yield of delaminated single MXene layers (up to ∼60% after the first round of washing/centrifugation) and high colloidal concentrations (up to 31 mg ml-1). The working electrode prepared from free-standing MXene paper shows an exceptional capacitance of ≈490 F g-1 at 1 A g-1 in a supercapacitor, which is among the highest values reported for MXene-based supercapacitor electrodes. The exceptional electrical conductivity, high yield of delaminated MXene single layers, and high colloidal concentration of the EN-MILD approach significantly expand the applications of MXenes.

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