Biografija ukratko:
Rodjen 03.04.1965. u Uzicu. Diplomirao 1991, magistrirao 1994, doktorirao 1997, i postao docent 1999 na Katedri za obojenu metalurgiju Tehnolosko-Metalurskog FAkulteta u Beogradu. 2001 je dobio Humboltovu stipendiju u Bonu, i od 2002 je zaposlen na Institutu za Procesnu metalurgiju i recikliranje metala Fakulteta za georesurse i Inzinjerstvo materiala Tehnickog Univerziteta u Ahenu, gde je profesor je na Predmetima “Hidrometalurgija i Elektroliza” , “Metalurgija elemenata retkih zemalja-Dobijanje I recikliranje”, i “Vodonik u ekstraktivnoj metalurgiji (Felix Boigny Univerzitet na Obali Slonovace). Radi na EUROTITAN-projektu, kao i na raznim projektima bilateralne saradnje izmedju Nemacke i Srbije. Izabran je za vanrednog profesora u Nemackoj u 2014, i za naucnog savetnika u 2024 u Srbiji.
Oblast istraživanja:
Metalurgija, sinteza novih materijala, recikliranje metala, vodonik
Učešće na projektima:
2024-2027 Decarbonized processes for recovery of titanium from aluminium and titanium residues EURO-TITAN (Current Project)
2023-2025 International Master Program, Green Hydrogen and technologies, Grant number 03SF0626C, WASCAL
2024-2025 Development of membranes based on metalorganic frameworks (MOFs) for extraction of metals and critical raw materials from mine waste, No. 57702456
Relevantni radovi:
- Kostic, D., Stopic, S., Keutmann, M., Emil-Kaya, E., Volkov-Husovic, T. , Perušic, M., Friedrich, B. Synthesis of Titanium-Based Powders from Titanium Oxy-Sulfate Using Ultrasonic Spray Pyrolysis, Materials 2024, 17, 4779. https://doi.org/10.3390/ma17194779
- Stopic, S, Kostic, D, Schneider, R , Sievers, M., Wegmann, F., Emil Kaya, E., Perušic, M., Friedrich, B. Recovery of Titanium from Red Mud Using Carbothermic Reduction and High Pressure Leaching of the Slag in an Autoclave. Minerals 2024, 14, 1151. https://doi.org/10.3390/min14111151
- Stopic, S., Kostic, D., Emil-Kaya, E., Uysal, E., Gürmen, S., Mitrašinovic, A., Perušic, M, Friedrich, B, High-Pressure and High-Temperature Dissolution of Titanium from Titanium and Aluminum Residues: A Comparative Study, Surfaces 2024, 7, 1096–1108. https://doi.org/10.3390/surfaces7040072