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Exploring PANI-TiN Nanoparticle Coatings in a PEFC Environment: Enhancing Corrosion Resistance and Conductivity of Stainless Steel Bipolar Plates

Author

Listed:
  • Surbhi Sharma

    (Centre for Fuel Cells and their Fuels, Chemical Engineering, University of Birmingham, Birmingham B15 2TT, UK)

  • Kun Zhang

    (Centre for Fuel Cells and their Fuels, Chemical Engineering, University of Birmingham, Birmingham B15 2TT, UK)

  • Gaurav Gupta

    (Centre for Fuel Cells and their Fuels, Chemical Engineering, University of Birmingham, Birmingham B15 2TT, UK)

  • Daniel G. Santamaria

    (Centre for Fuel Cells and their Fuels, Chemical Engineering, University of Birmingham, Birmingham B15 2TT, UK)

Abstract

Electrochemically-deposited polymer-metal composites, although explored for various uses, have only recently attracted attention for metallic bipolar plates used in fuel cells. Utilising a facile electrochemical deposition process, composite polyaniline and titanium nitride nanoparticle (PANI-TiN) coatings of varying thickness (5–50 cyclic voltammetry cycles) and composition (TiN nanoparticle concentration, 0.1 g L −1 and 0.5 g L −1 ) were deposited on stainless steel 304L (SS304) substrates. As compared to the pristine PANI coatings, which displayed an interfacial contact resistance (ICR) value of 367.5 mΩ cm 2 and corrosion resistance (E corr ) of 214 mV SHE , the composite PANI-TiN 0.5 coatings displayed significantly reduced ICR values of 32.6 mΩ cm 2 while maintaining similar corrosion resistance. The superior properties of these thin (~10 nm) composite coatings with low TiN loading (0.05–0.1 mg cm −2 ) show potential for further improvement in ICR with the possible use of higher TiN (or slightly lower PANI) concentrations. The study also demonstrated an interesting dynamic between PANI and TiN simultaneous deposition where the concentration of TiN NPs negatively affects the deposition rate for PANI, allowing the deposition of even thinner PANI coatings and possibly enabling control over the composition of the composite coating. The TiN NPs not only impart better conductivity for use as bipolar plates but, at higher loading, also assist PANI in enhancing corrosion resistance. Even for the lowest number of coating cycles (five cycles), the PANI-TiN 0.5 composite films showed a remarkable 48 mV shift towards more positive/higher corrosion potential (E corr = 5 mV SHE ) with respect to PANI (E corr = −57 mV SHE ). The coatings demonstrated a reduction in corrosion current density to values of ~0.5 µA cm −2 achieving beyond the DoE 2020 target of 1 µA cm −2 .

Suggested Citation

  • Surbhi Sharma & Kun Zhang & Gaurav Gupta & Daniel G. Santamaria, 2017. "Exploring PANI-TiN Nanoparticle Coatings in a PEFC Environment: Enhancing Corrosion Resistance and Conductivity of Stainless Steel Bipolar Plates," Energies, MDPI, vol. 10(8), pages 1-13, August.
  • Handle: RePEc:gam:jeners:v:10:y:2017:i:8:p:1152-:d:107236
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    References listed on IDEAS

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    1. Lee, Choong-Hyun & Lee, Yang-Bok & Kim, Kyung-Min & Jeong, Min-Gun & Lim, Dae-Soon, 2013. "Electrically conductive polymer composite coating on aluminum for PEM fuel cells bipolar plate," Renewable Energy, Elsevier, vol. 54(C), pages 46-50.
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    Cited by:

    1. Heng Zhang & Yang Yang & Tianyu Liu & Honglong Chang, 2018. "Boosting the Power-Generation Performance of Micro-Sized Al-H 2 O 2 Fuel Cells by Using Silver Nanowires as the Cathode," Energies, MDPI, vol. 11(9), pages 1-10, September.

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