Understanding Anion Transport in an Aminated Trimethyl Polyphenylene with High Anionic Conductivity

Abstract

An alkaline exchange membrane (AEM) based on an aminated trimethyl poly(phenylene) is studied in detail. This article reports hydroxide ion conductivity through an in situ method that allows for a more accurate measurement. The ionic conductivities of the membrane in bromide and carbonate forms at 90 deg C and 95% RH are found to be 13 and 17 mS cm(expn -1) respectively. When exchanged with hydroxide, conductivity improved to 86 mS cm(expn -1) under the same experimental conditions. The effect of relative humidity on water uptake and the SAXS patterns of the AEM membranes were investigated. SAXS analysis revealed a rigid aromatic structure of the AEM membrane with no microphase separation. The synthesized AEM is shown to be mechanically stable as seen from the water uptake and SAXS studies. Diffusion NMR studies demonstrated a steady state long-range diffusion constant, D1 of 9.8 x 10(expn -6) cm(expn 2) s(expn -1) after 50 100 ms.

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Document Details

Document Type
Technical Report
Publication Date
Jan 01, 2012
Accession Number
ADA581388

Entities

People

  • Andrew M Herring
  • Benjamin R. Caire
  • James L. Horan
  • Matthew W Liberatore
  • Michael R. Hibbs
  • Rajeswari Janarthanan
  • Xiaobing Zuo
  • Yuan Yang
  • Zachary C. Ziegler

Organizations

  • Argonne National Laboratory

Tags

Communities of Interest

  • Advanced Electronics
  • Energy and Power Technologies

DTIC Thesaurus Topics

  • Cells
  • Chemistry
  • Coefficients
  • Diffusion Coefficient
  • Energy
  • Equations
  • Films
  • Ion Exchange
  • Materials
  • Measurement
  • Molecules
  • Physical Chemistry
  • Polymers
  • Scattering
  • Spectra
  • Water Vapor
  • X Rays

Fields of Study

  • Materials science

Readers

  • Organic Chemistry
  • Polymer Science and Technology
  • Underwater engineering and Marine Technology.