Novel Nafion/Graphitic Carbon Nitride Nanosheets Composite Membrane for Steam Electrolysis at 110 °C

Abstract: Hydrogen is expected to have an important role in future energy systems; however, further research is required to ensure the commercial viability of hydrogen generation. Proton exchange membrane steam electrolysis above 100 °C has attracted significant research interest owing to its high electrolytic efficiency and the potential to reduce the use of electrical energy through waste heat utilization. This study developed a novel composite membrane fabricated from graphitic carbon nitride (g-C3N4) and Nafion and … Show more

“…We further substantiated the structures of the samples by using X-ray diffraction (XRD), as depicted in Figure a. The extensive band observed at approximately 2θ = 25° within the blank Nafion film is attributed to the amorphous nature of Nafion . Upon depositing a ZnO nanomembrane (plot: ZnO-Nafion film), the XRD pattern shows sharp diffraction peaks, which correspond to polycrystalline wurtzite ZnO .…”

Dense and Uniform Integration of Cu-BDC Particles on a Nafion Film for a High-Performance Hydrogen-Producing Device

“…We further substantiated the structures of the samples by using X-ray diffraction (XRD), as depicted in Figure a. The extensive band observed at approximately 2θ = 25° within the blank Nafion film is attributed to the amorphous nature of Nafion . Upon depositing a ZnO nanomembrane (plot: ZnO-Nafion film), the XRD pattern shows sharp diffraction peaks, which correspond to polycrystalline wurtzite ZnO .…”

Dense and Uniform Integration of Cu-BDC Particles on a Nafion Film for a High-Performance Hydrogen-Producing Device

Manufacturing and investigation of MEAs for PEMWE based on glass fibre reinforced PFSA/ssPS composite membranes and catalyst-coated substrates prepared via catalyst electrodeposition

Steam electrolysis for green hydrogen generation. State of the art and research perspective