Journal of Science: Advanced Materials and Devices (Sep 2024)

Active carbon derived from rice husk as sustainable substitutes for costly platinum electrodes in dye-sensitized solar cells

  • M.I.U. Weerasinghe,
  • P.M.L. Kumarage,
  • I.G.K.D. Amarathunga,
  • T.M.W.J. Bandara,
  • D. Velauthapillai,
  • B.C. Karunarathne,
  • R. Punniamoorthy,
  • R.M.G. Rajapakse,
  • G.R.A. Kumara

Journal volume & issue
Vol. 9, no. 3
p. 100749

Abstract

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Significant financial and environmental challenges are associated with using platinum electrodes as counter electrodes (CEs) in dye-sensitized solar cells (DSCs). This work uses rice husk, an agricultural waste, to create active carbon that is appropriate for DSC CEs in response to these difficulties. A simple spray pyrolysis technique created activated carbon obtained from rice husks. The DSC employing activated rice husk carbon as the CE demonstrated a conversion efficiency of 6.06%, slightly lower than the 8.21% efficiency achieved with a platinum electrode-based cell. However, this performance gap is overshadowed by the substantial cost reduction enabled by the utilization of low-cost activated carbon compared to noble metal alternatives. This result introduces promising avenues for investigating the use of agriculturally derived carbon materials as workable and affordable options for platinum CEs in DSCs, thereby contributing to the sustainable advancement of photovoltaic systems. Even though the performance of DSC that uses activated carbon derived from rice husk in CE is slightly lower than its counterparts based on platinum, the cost reduction due to the use of low-cost activated carbon with noble metal is significant.

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