Dr Siti Rosilah binti Arsad
- Postdoctoral Research Fellow
Department of Engineering
SDGs Focus
Biography
Siti Rosilah Arsad earned her B.Sc., M.Sc., and Ph.D. in Chemistry from the University of Technology Malaysia (UTM) in Johor, Malaysia. Her academic journey explores the intersection of chemistry and sustainability. As a postdoctoral researcher at University Tenaga Nasional in 2021, she developed skills in renewable energy technologies and gained interest in AI for renewable energy. Currently, as a Post-Doctoral Research Fellow at Sunway University, she focuses on sustainable energy, particularly hydrogen production, aiming to establish it as a cleaner energy carrier and contribute to a more eco-friendly energy landscape.
Academic & Professional Qualifications
- Ph.D (Chemistry), Universiti Teknologi Malaysia (2019)
- M.Sc. (Chemistry), Universiti Teknologi Malaysia (2011)
- B.Sc. (Chemistry) Universiti Teknologi Malaysia (2008)
Research Interests
- 1. Renewable energy technologies
- 2. Hydrogen energy
- 3. Energy storage technologies
- 4. Artificial intelligence for renewable energy
Achievements & Accolades
- SR Arsad, AZ Arsad, Pin Jern Ker, MA Hannan, Shirley GH Tang, SM Goh, TMI Mahlia (2024). Recent advancement in water electrolysis for hydrogen production: A comprehensive bibliometric analysis and technology updates. International Journal of Hydrogen Energy.
- SR Arsad, PJ Ker, MA Hannan, Shirley GH Tang, RS Norhasyima, CF Chau, TMI Mahlia (2023). Patent landscape review of hydrogen production methods: Assessing technological updates and innovations. International Journal of Hydrogen Energy. 50, 447-472. Link: https://doi.org/10.1016/j.ijhydene.2023.09.085.
- SR Arsad, Hasnul Hadi, M.H.; Mohd Afandi, N.A.; Ker, P.J.; Tang, S.G.H.; Mohd Afzal, M.; Ramanathan, S.; Chen, C.P.; Krishnan, P.S.; Tiong, S.K. (2023). The Impact of COVID-19 on the Energy Sector and the Role of AI: An Analytical Review on Pre- to Post-Pandemic Perspectives. Energies. 16(18), 6510. Link: https://doi.org/10.3390/en16186510.
- Arsad, S. R., Ker, P. J., Jamaludin, M. Z., Choong, P. Y., Lee, H. J., Thiviyanathan, V. A., & Yang Ghazali, Y. Z. (2023). Water content in transformer insulation system: A review on the detection and quantification methods. Energies, 16(4), 1920. Link: 10.3390/en16041920.
- Tang, S. G. H., Hadi, M. H. H., Arsad, S. R., Ker, P. J., Ramanathan, S., Afandi, N. A. M., ... & Tiong, S. K. (2022). Prerequisite for COVID-19 prediction: a review on factors affecting the Infection rate. International Journal of Environmental Research and Public Health, 19(20), 12997. Link: 10.3390/ijerph192012997.
- Mustafa, S. F. Z., Arsad, S. R., Mohamad, H., Abdallah, H. H., & Maarof, H. (2021). Host-guest molecular encapsulation of cucurbit [7] uril with dillapiole congeners using docking simulation and density functional theory approaches. Structural Chemistry, 32, 1151-1161. Link: https://doi.org/10.1007/s11224-020-01708-4.
- Arsad, S. R., Maarof, H., Wan Ibrahim, W. A., & Aboul‐Enein, H. Y. (2016). Theoretical and Molecular Docking Study of Ketoconazole on Heptakis (2, 3, 6‐tri‐O‐methyl)‐β‐cyclodextrin as Chiral Selector. Chirality, 28(3), 209-214. Link: https://doi.org/10.1002/chir.22554.
- Wan Ibrahim, W. A., Arsad, S. R., Maarof, H., Sanagi, M. M., & Aboul‐Enein, H. Y. (2015). Chiral separation of four stereoisomers of ketoconazole drugs using capillary electrophoresis. Chirality, 27(3), 223-227. Link: https://doi.org/10.1002/chir.22416.
- Ibrahim, W. A. W., Arsad, S. R., Maarof, H., & Sanagi, M. M. (2014). Experimental and theoretical study on chiral recognition mechanism of ketoconazole enantiomers using heptakis (2, 3, 6-tri-O-methyl)-β-cyclodextrin. Malaysian Journal of Fundamental and Applied Sciences, 10(2). Link: http://dx.doi.org/10.11113/mjfas.v10n2.262.
Professional Associations
- YCU Grant 2022 (16th August 2022 - 18th August 2023) - Reduction Conversion of CO2 to Formic Acid as a Renewable Hydrogen Sources using Electrochemical Method - RM20,000 (Active).
- YCU Grant 2022 (16th August 2022 – 18th August 2023) - Production of Formic Acid from CO2 and H2O by Plasma Electrolytic System - RM20,000 (Active).
