# Decoupling Solvent Effects: Perfluorinated Sulfonic Acid Structure and Catalyst Layer Stability in PEM Water Electrolysis

**Authors:** Jong-Hyeok Park, Jin-Soo Park

PMC · DOI: 10.3390/membranes16010022 · 2026-01-01

## TL;DR

This study examines how the structure of perfluorinated sulfonic acid ionomers affects catalyst layer performance and stability in water electrolysis, using a single solvent to isolate structural effects.

## Contribution

The study introduces a propylene-glycol solvent platform to decouple solvent effects from ionomer structure in PEM water electrolysis catalyst layers.

## Key findings

- Propylene-glycol reduces ionomer aggregate size and catalyst–ionomer agglomerates without a systematic equivalent weight trend.
- Short- and mid-side chain ionomers show better durability and lower ohmic overpotentials compared to long-side chain Nafion.
- SSC ionomers (EW ≈ 980) are recommended for stability, while MSC maximizes current with moderate durability.

## Abstract

Solvent differences in perfluorinated sulfonic acid ionomer (PFSI) dispersions confound comparisons of catalyst-layer (CL) binders for PEM water electrolysis. We use a propylene-glycol (PG) single-solvent platform to isolate effects of ionomer structure, i.e., side-chain architecture and equivalent weight (EW), across five PFSIs (Nafion D2021, Nafion D2020, Aquivion D98-25BS, Aquivion D72-25BS, and 3M E-22397B) as hydrogen evolution reaction-CL binders. PG collapses ionomer aggregates from microns to sub-100 nm and reduces catalyst–ionomer agglomerates without a systematic EW trend, indicating that performance differences originate during film formation. PG makes CLs more hydrophobic (higher θR), yet aerophobicity (θAir) still increases with decreasing EW, consistent with higher sulfonic-acid density. Under PG, current density at 1.9 V rises with decreasing EW, with thicker short-side chain/mid-side chain (SSC/MSC) films (≥140 nm) and lower ohmic overpotentials than long-side-chain (LSC) Nafion. Durability under Accelerated Stress Test-2 (AST-2; 0.3/3.0 A cm−2, 48 h) splits by class: LSC Nafion shows the largest degradation slopes, whereas SSC/MSC are lower; transmission electron microscope images show Pt growth with Nafion D2020-PG but minimal growth with Aquivion D98-25BS-PG. With solvent effects removed, ionomer structure governs CL performance and stability; SSC (EW ≈ 980) is recommended, and MSC maximizes current with moderate stability.

## Linked entities

- **Chemicals:** propylene-glycol (PubChem CID 1030)

## Full-text entities

- **Chemicals:** PG (MESH:D019946), Pt (MESH:D010984), Aquivion D98-25BS-PG (-), CLs (MESH:D002713), PEM (MESH:C057213), sulfonic-acid (MESH:D013451), Nafion (MESH:C040402), Water (MESH:D014867), hydrogen (MESH:D006859)

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12844406/full.md

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Source: https://tomesphere.com/paper/PMC12844406