Abstract
Thin layers of highly conductive graphitic carbon are deposited onto nickel-plated steel substrates using a direct photothermal chemical vapor deposition (PTCVD) technique. The coated nickel-plated steel substrates improve electrical properties (sheet resistance and interfacial contact resistance [ICR]) compared with pristine nickel-plated steel, which makes it a cost-effective alternative to stainless steel for steel producers to use in high-end electrical applications such as energy storage and microelectronics. The coated nickel-plated steel is found to have ≈10% reduction in sheet resistance and 200 times reduction in ICR (under compression at 140 N cm−2), compared with pristine nickel-plated steel. ICR is also three times lower than that of a benchmark gold-coated stainless steel equivalent at the same pressure.
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Mills, C. A., Batyrev, E., Jansen, M. J. R., Ahmad, M., Pathan, T. S., Legge, E. J., … Silva, S. R. P. (2019). Improvement in the Electrical Properties of Nickel-Plated Steel Using Graphitic Carbon Coatings. Advanced Engineering Materials, 21(10). https://doi.org/10.1002/adem.201900408
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