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Non-Fluorinated Ion Exchange Membrane

PBI Flow Battery Membrane

  Compared to the currently widely used fluorinated proton exchange membranes, PBI (polybenzimidazole) flow battery membranes offer advantages such as the easy synthesis of resin raw materials and lower costs.

  和儲(chǔ)新材The ZH Energy PBI flow battery membrane product successfully resolves the previous conflict between oxidative resistance and proton conductivity in non-fluorinated proton exchange membranes, achieving the goal of simultaneously enhancing chemical stability and proton conductivity. Its battery performance have reached the same level as those of fluorinated proton exchange membranes. This product can be applied to various flow battery technologies, including vanadium, iron-chromium, and sulfur-iron systems.

  ? Excellent ion selectivity, high proton conductivity, and vanadium resistance.

  ? Thin, strong, low swelling ratio, good dimensional stability, and resistance to electrode puncture.

  ? High-temperature resistance, oxidative resistance, and good chemical stability.

Specifications
Performance Technical Specification Testing Method
Thickness(μm) 15-40 NB/T42080-2016
Proton Conductivity (mS/cm) ≥40 NB/T42080-2016
Vanadium IonPermeability (10??cm2 min?1) ≤1.0 NB/T42080-2016
Coulombic Efficiencyof Vanadium Batteries ≥99% General Standard
Energy Efficiency of Vanadium Batteries ≥83%@120mA/cm2
≥80%@180mA/cm2		 General Standard

PBI fuel cell membranes

  The ZH Energy PBI fuel cell membrane is a non-reinforced polybenzimidazole membrane prepared by casting. This product boasts excellent high-temperature resistance, maintaining long-term stability at 300℃, making it suitable for high-temperature proton exchange membrane fuel cell applications.

  ? Excellent proton conductivity.

  ? High strength, low swelling ratio, and good dimensional stability.

  ? High-temperature resistance, oxidative resistance, and good chemical stability.

Specifications
Performance Technical Specification Testing Method
Thickness(μm) 10-100/±3% GB/T20042.3-2022
Width (mm) 600 General Standard
Tensile Strength (MPa) 130-200 GB/T20042.3-2022
Elongation at Break (%) 30-50 GB/T20042.3-2022
Dielectric Strength (MV/m) 350-400 General Standard
Acid Uptake (wt.%) 400-450 General Standard
Dimensional Swelling Ratio(%) 30±5 General Standard
Thickness Swelling Ratio(%) 70±5 General Standard
Tensile Strength(420wt.% Acid Uptake)(MPa) 12-15 General Standard
Proton Conductivity(420wt.% Acid Uptake、160℃、RH=0%)(mS/cm) 100-120 GB/T20042.3-2022
Hydrogen permeation current density (mA/cm2) 1-2 General Standard