Novel Tin-based Gel Polymer Electrode and Its Use in Sodium-ion Capacitor

TL;DR

This paper introduces a new flexible tin-based gel polymer electrode for sodium-ion capacitors, demonstrating improved capacity and stability through innovative material design and characterization techniques.

Contribution

The study develops a novel tin micro-particle gel polymer electrode for sodium-ion devices, enhancing ion transfer and capacity retention compared to existing electrodes.

Findings

Capacitance reaches 210 mAh g-1 at 1 A g-1.

Initial capacity increases up to 175 cycles due to surface area expansion.

Electrode shows stable performance with disintegrating tin particles.

Abstract

We present a novel tin based flexible, gel polymer negative electrode for use in sodium-ion devices. The electrodes have been prepared by trapping tin micro-particles in a porous electrolyte membrane formed by immersion precipitation phase-inversion and soaking in a sodium-ion conducting liquid electrolyte. The tin particles are the active electrode materials as well as electron conductors, while the gel polymer enable efficient ion-transfer to the tin particles. The composite gel electrode and its performance in sodium-ion capacitor has been analyzed using scanning electron microscopy. x-ray diffraction, cyclic voltammetry and galvanostatic charge-discharge. The specific capacity of the capacitor shows an initial increase, up to 175 charge-discharge cycles. This increase has been explained by the increase in surface area of tin due to disintegration of the larger particles upon repeated insertion/de-insertion of sodium. A high capacitance of 210 mAh g-1 at 1 A g-1 has also been measured.