Titanium dioxide (TiO2) is an essential raw material widely used in Indonesia’s medical, cosmetic, paint, cement, aerospace, and defense industries. Despite its industrial importance, domestic TiO2 production remains limited, resulting in continued dependence on imports. Meanwhile, Indonesia possesses abundant iron sand resources that have not been fully utilized as potential raw materials for TiO2 extraction. This study aims to extract titanium dioxide from iron sand obtained from the southern coast of Lebak Regency, Banten Province. The extraction process began with the preparation of iron sand through washing, drying, and magnetic separation to isolate titanium-rich minerals, mainly ilmenite (FeTiO3) and titanomagnetite (Fe2TiO4). The ilmenite concentrate was leached using sulfuric acid (H2SO4, 96%) at 150–200 °C, forming titanium oxysulfate (TiOSO4) and ferrous sulfate (FeSO4). The solution was filtered, and titanium was precipitated as hydrated titanium dioxide (TiO2•H2O) through neutralization. The precipitate was washed, dried, and calcined at 500 °C to obtain anatase-phase TiO2. X-ray diffraction (XRD) analysis revealed dominant mineral phases of ilmenite (98.63%) and titanomagnetite (90.56%), while X-ray fluorescence (XRF) showed titanium contents of 22.72% in FeTiO3 and 20.45% in Fe2TiO4. The resulting TiO2 exhibited an anatase phase with 98.7% purity. The findings confirm that Lebak’s southern coastal iron sand is rich in titanium-bearing minerals, demonstrating its potential as a sustainable raw material for domestic TiO2 production. This study provides a preliminary foundation for optimizing the extraction process to enhance yield and support local industrial development.

T. Rusianto, M. W. Wildan, K. Abraha, and K. Kusmono, “The potential of iron sand from the coast south of Bantul Yogyakarta as raw ceramic magnet materials,†J Teknol, vol. 5, no. 1, pp. 62–69, 2012.

H. KURNIO, “Coastal characteristics of iron sand deposits in Indonesia,†Indonesian Mining Journal, vol. 10, no. 3, pp. 27–38, 2007.

S. Suratman, “distribution characteristics of ferro-titanium oxide mineral on low-grade iron sand,†Indonesian Mining Journal, vol. 20, no. 1, pp. 49–58, 2017.

A. Manaf, “Kegiatan litbang pasir besi (iron sand) di universitas Indonesia,†in Seminar Lokakarya Pemanfaatan Bahan Baku Lokal untuk Industri baja Nasional, PT Krakatau Steel, Cilegon, 2005.

T. F. Pramusanto, M. D. Koesnadi, M. A. Satrio, and A. Subandi, “Potensi pemanfaatan bijih besi lokal untuk kemandirian industri baja nasional,†in Proseding Seminar Sehari Bidang Logam MMI 2000, 2000.

R. Subagja, “Pengalaman pusat penelitian metalurgi LIPI dalam penelitian pemanfaatan bijih besi titan,†in Seminar Lokakarya Pemanfaatan Bahan Baku Lokal untuk Industri Baja Nasional, 2005.

W. A. Adi and T. R. Mulyaningsih, “Composition analysis of titanomagnetite and ilmenite from iron sand using neutron activation analysis as preliminary study for producing iron oxide and titanium oxide,†Int J Acad Res, vol. 7, no. 3, pp. 359–364, 2015.

C. Sutowo and F. Rokhmanto, “Sintesis paduan titanium berbasis Ti-Mo-Nb untuk aplikasi biomaterial,†Jurnal Teknik Mesin Cakram, vol. 6, no. 1, pp. 57–61, Jul. 2023, doi: 10.32493/jtc.v6i1.31807.

R. Muharni and A. S. Dewi, “Corrosion behavior of titanium Ti6Al4V ELI bioceramic coated alloy in artificial saliva modified liquid at fluctuating temperatures,†REM (Rekayasa Energi Manufaktur) Jurnal, vol. 6, no. 2, pp. 23–27, 2021.

S. S. Priharyono, “Pengambilan titanium dioksida (TiO2) dari pasir besi Kulon Progo dengan metode hidrometalurgi (Variabel Waktu dan Perbandingan Massa),†2022.

N. Taufiqu Rochman and A. A. Wisnu, “Analysis of structural and microstructure of lanthanum ferrite by modifying iron sand for microwave absorber material application,†Adv Mat Res, vol. 896, pp. 423–427, 2014.

Y. Aristanti, Y. I. Supriyatna, N. P. Masduki, and S. Soepriyanto, “Decomposition of banten ilmenite by caustic fusion process for TiO2 photocatalytic applications,†in IOP Conference Series: Materials Science and Engineering, IOP Publishing, 2018, p. 012005.

Y. E. Gunanto, M. P. Izaak, L. Cahyadi, E. Jobiliong, and W. A. Adi, “Preliminary study: Local iron sand characterization of titanomagnetite type,†in IOP Conference Series: Materials Science and Engineering, IOP Publishing, 2018, p. 012059.

D. Sufiandi, “Konsentrasi pasir besi titan dari pengotornya dengan cara magnetik,†Metalurgi, vol. 26, no. 1, pp. 15–20, 2015.

D. L. Graf, “Crystallographic tables for the rhombohedral carbonates,†American mineralogist: Journal of earth and planetary materials, vol. 46, no. 11–12, pp. 1283–1316, 1961.

Hobart M. King, “Ilmenite,†https://geology.com/minerals/ilmenite.shtml. Accessed on 10 September 2025

Hobart M. King, “Quartz,†https://geology.com/minerals/quartz.shtml. Accessed on 12 September 2025

B. H. Toby, “EXPGUI, a graphical user interface for GSAS,†Applied Crystallography, vol. 34, no. 2, pp. 210–213, 2001.

S. Sukmara, W. A. Adi, and A. Manaf, “Mineral analysis and its extraction process of ilmenite rocks in titanium-rich cumulates from Pandeglang Banten Indonesia,†Journal of Materials Research and Technology, vol. 17, pp. 3384–3393, 2022.

L. Rahmawati, D. S. Pratama, Z. Sembiring, S. Suharso, T. Anggraeni, and S. Sarwan, “Extraction of titanium dioxide (tio2) from iron sand of tembakak beach west coast as nanoparticles using hydrometallurgy method,†Analit: Analytical and Environmental Chemistry, pp. 95–107, 2024.

I. Firdaus, R. Marjunus, and P. Manurung, “Synthesis and characterization of TiO2 from Lampung’s Iron Sand using leaching method with temperature variation,†Jurnal Fisika dan Aplikasinya, vol. 17, no. 2, pp. 37–40, 2021.

T. Ishlah, M. R. Parningotan, R. S. Nugraha, T. Handayani, and H. Zahra, “Mineralogy and provenance of titanium-vanadium bearing iron sand deposits from Purworejo-Kebumen, and Cilacap, Central Java.,†Journal of Mathematical & Fundamental Sciences, vol. 56, no. 1, 2024.