STAFF PROFILE
Dr Hamid Arandiyan
Position:
Senior Industry Research Fellow ( Tenured) —Resource Sector Critical Minerals
College / Portfolio:
STEM College
School / Department:
STEM|Research & Innovation
Email:
hamid.arandiyan@rmit.edu.au
Campus:
City Campus
Contact me about:
Research supervision
Dr Hamid Arandiyan is a Senior Research Fellow within the School of Science. His research interest is in the fields of surface science and catalysis for environmental remediation and sustainable energy applications.
Prior to moving to RMIT, he was awarded a University of Sydney Senior Research Fellowship in the School of Chemistry in 2018, and Vice-Chancellor's Research Fellowship in the School of Chemical Engineering from UNSW in 2015.
His research interests lie in heterogeneous catalysis, nanomaterial design, in situ/operando spectroscopy, chemical sciences, and surface science.
Academic
- PhD, Tsinghua University, 2014
Professional
- FRSC
- MRACI CChem
- MIEAust
- Transformative Research Accelerating Commercialisation (TRAC) Funding Agreement TM021 - Solar-Energy-Driven Modular Floatable Device for Scalable Green Hydrogen Production from Wastewater. Funded by: Australian Renewable Energy Agency-Hydrogen Research & Development from (2024 to 2029)
- A Sustainable Process for Critical Metals Production from Laterite Ores. Funded by: ARC-Linkage Project from (2024 to 2027)
- A trimodal infrared, Raman and fluorescence submicron imaging microscope (administered by Monash University). Funded by: ARC Linkage Infrastructure Equipment and Facilities (LIEF) Grant from (2024 to 2025)
- The fuel cells and electrolysers prototyping and testing facility (administered by the University of Sydney). Funded by: ARC Linkage Infrastructure Equipment and Facilities (LIEF) Grant from (2024 to 2025)
- Integrating End of Life (EoL) Solar Panel Waste in Circular Economy Model. Funded by: DCCEEW International Clean Innovation Researcher Networks Grant from (2023 to 2027)
- Jiang, Y.,Toe, C.,Mofarah, S.,Wang, Y.,Arandiyan, H. R., et al., . (2023). Efficient Cocatalyst-Free Piezo-Photocatalytic Hydrogen Evolution of Defective BaTiO3-x Nanoparticles from Seawater In: ACS Sustainable Chemistry and Engineering, 11, 3370 - 3389
- De Villenoisy, T.,Zheng, X.,Wong, V.,Mofarah, S.,Arandiyan, H.,Yamauchi, Y.,Koshy, P.,Sorrell, C. (2023). Principles of Design and Synthesis of Metal Derivatives from MOFs In: Advanced Materials, 35, 1 - 53
- Arandiyan, H.,Sudarsanam, P.,Bhargava, S.,Lee, A.,Wilson, K. (2023). Perovskite Catalysts for Biomass Valorization In: ACS Catalysis, 13, 7879 - 7916
- Siles-Quesada, S.,Parlett, C.,Lamb, A.,Manayil, J.,Liu, O.,Mensah, J.,Arandiyan, H.,Wilson, K.,Lee, A. (2023). Synthesis and catalytic advantage of a hierarchical ordered macroporous KIT-6 silica In: Materials Today Chemistry, 30, 1 - 10
- Luo, Y.,Zheng, X.,Vutukuri, C.,Arandiyan, H. R., et al, . (2023). Tailored Fabrication of Defect-Rich Ion Implanted CeO2-x Nanoflakes for Electrochemical Sensing of H2O2 In: Journal of the Electrochemical Society, 170, 1 - 13
- Mao, P.,Arandiyan, H.,Mofarah, S.,Bhargava, S. (2023). A comprehensive review of cathode materials for Na-air batteries In: Energy Advances, 2, 465 - 502
- Liu, C.,Feng, X.,Zhao, Y.,Fan, H.,Zheng, R.,Wang, Z.,Arandiyan, H.,Wang, Y.,Bhargava, S.,Liu, Y.,Sun, H.,Shao, Z. (2023). Enhancing potassium ions adsorption on mesoporous carbon spheres with abundant internal surface via engineering sulfur doping sites towards superior rate capability In: Journal of Colloid and Interface Science, 652, 1325 - 1337
- Zhao, J.,Wang, H.,Arandiyan, H.,Shah, D.,Caruso, R.,Cole, I., et al, . (2023). Impact of doping ZrO2 with Sn on CO2 hydrogenation over dispersed Ru In: Materials Today Chemistry, 32, 1 - 11
- Tseng, Y.,Mofarah, S.,Zheng, X.,Arandiyan, H.,Wang, Y.,Abbasi, R.,Gao, Y.,Sorrell, C.,Koshy, P. (2023). Engineering of Micro-mesoporous two-dimensional CeO2-based heterojunction oxides for energy storage applications In: Surfaces and Interfaces, 42, 1 - 15
- Lan, G.,Fan, H.,Wang, Y.,Arandiyan, H.,Bhargava, S.,Shao, Z.,Sun, H.,Liu, Y. (2023). Enhancement of the electrochemical oxygen reduction performance by surface oxygen vacancies on hematite nanosheets In: New Journal of Chemistry, 47, 21969 - 21977
Supervisors Interests: Heterogeneous catalysis, Sustainable chemistry, Synergistic nanoparticles, CO2 utilization, Renewable energy, Operando/in situ spectroscopy
Supervisor Projects: 6 PhD Completions
1 PhD Completions12 PhD Current Supervisions and 1 Masters by Research Current Supervisions