From Local Sand to Functional Silicon: An Integrated Pathway for Producing Photovoltaic-Grade Material from Nigerian Silica Sand

Authors
  • Tahiru MOHAMMED

    Author

  • Muhammad B. MAINA

    Author

  • Abba B. MUHAMMAD

    Author

  • Muhammad SHUWA

    Author

Keywords:
Silica sand, purification, carbothermic reduction, upgraded metallurgical-grade silicon (UMG-Si), photovoltaic, local content, Nigeria.
Abstract

Nigeria's significant solar energy potential is constrained by a reliance on imported high-purity silicon, despite abundant indigenous silica sand resources. This study presents a complete, integrated experimental pathway to assess the feasibility of producing photovoltaic-grade silicon from River Alau sand in Borno State. The research encompasses: Comprehensive characterization of raw sand using XRF, XRD, and SEM/EDX; Purification via optimized acid leaching (acid was used to remove impurities) and calcination; Carbothermic reduction at a temperature of 1700C was carried out to transform the sample to a metallurgical-grade silicon (MG-Si) and subsequent directional solidification; Evaluation of the electrical and optical properties of the upgraded silicon; and Fabrication and outdoor performance testing of simple solar cells under Maiduguri conditions. The raw sand contained 77.63% SiO₂ with significant impurities (Al₂O₃: 2.10%, K₂O: 6.31%). Purification achieved ≥99.6% SiO₂ purity, reducing key metallic impurities to <0.1%. Carbothermic reduction yielded MG-Si with 78% efficiency, and the upgraded material exhibited suitable properties for PV applications: a resistivity of 4.2 Ω•cm and a band gap of 1.12 eV. Fabricated solar cells generated an open-circuit voltage of 0.48–0.52 V. A preliminary economic analysis suggests a 25–30% potential cost saving in raw material sourcing. This work provides the first proof-of-concept for a viable domestic value chain from Nigerian silica sand to functional photovoltaic silicon, demonstrating technical feasibility and supporting the development of local solar manufacturing capabilities.

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Published
29-06-2026
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Articles
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Copyright (c) 2026 FUDMA Journal of Engineering and Technology

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How to Cite

[1]
T. MOHAMMED, M. B. MAINA, A. B. MUHAMMAD, and M. SHUWA, “From Local Sand to Functional Silicon: An Integrated Pathway for Producing Photovoltaic-Grade Material from Nigerian Silica Sand”, FJET, vol. 2, no. 1, pp. 1083–1091, Jun. 2026, doi: 10.33003/gdcray35.

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