Login / Signup

Porous Polymer Cubosomes with Ordered Single Primitive Bicontinuous Architecture and Their Sodium-Iodine Batteries.

Luoxing XiangSiqi YuanFaxing WangZhihan XuXiuhong LiFeng TianLiang WuWei YuYiyong Mai
Published in: Journal of the American Chemical Society (2022)
Bicontinuous porous materials, which possess 3D interconnected pore channels facilitating a smooth mass transport, have attracted much interest in the fields of energy and catalysis. However, their synthesis remains very challenging. We report a general approach, using polymer cubosomes as the template, for the controllable synthesis of bicontinuous porous polymers with an ordered single primitive (SP) cubic structure, including polypyrrole (SP-PPy), poly- m -phenylenediamine (SP-PmPD), and polydopamine (SP-PDA). Specifically, the resultant SP-PPy had a unit cell parameter of 99 nm, pore diameter of 45 nm, and specific surface area of approximately 60 m 2 ·g -1 . As a proof of concept, the I 2 -adsorbed SP-PPy was employed as the cathode materials of newly emerged Na-I 2 batteries, which delivered a record-high specific capacity (235 mA·h·g -1 at 0.5 C), excellent rate capability, and cycling stability (with a low capacity decay of 0.12% per cycle within 400 cycles at 1 C). The advantageous contributions of the bicontinuous structure and I 3 - adsorption mechanism of SP-PPy were revealed by a combination of ion diffusion experiments and theoretical calculations. This study opens a new avenue for the synthesis of porous polymers with new topologies, broadens the spectrum of bicontinuous-structured materials, and also develops a novel potential application for porous polymers.
Keyphrases
  • tissue engineering
  • stem cells
  • magnetic resonance imaging
  • high resolution
  • risk assessment
  • mesenchymal stem cells
  • contrast enhanced
  • electron transfer