Dr Nur Syakina Jamali - Women in Green Hydrogen

Short description

Green Hydrogen & Nanotechnology Integration Expert, Sustainable Solutions Consultant!

Quote

As an academic, researcher, and consultant, I strongly support the important role of women in the Green Hydrogen network. Their presence brings diversity and unique perspectives, contributing innovative ideas and enriching the field. Promoting women in this network is crucial for solving global challenges and making effective decisions through diverse teams. Encouraging women's participation ensures a broader range of talents, driving progress in sustainable energy.

From an academic perspective, involving women in Green Hydrogen research provides mentorship and role models, inspiring the next generation. Breaking gender barriers encourages young women to pursue STEM careers, creating a more balanced future workforce. As a consultant expert, I recognize that diverse perspectives enhance sustainable solutions. Women bring unique skills and creativity, contributing to innovative technologies for a greener future.

In conclusion, involving women in the Green Hydrogen network is about leveraging diverse talents for global benefit. Embracing and empowering women in this field is a commitment to excellence, equality, and a more sustainable future.

Company / Position Associate Researcher, Institute of Nanomaterials and Nanotechnology, Department of Chemical and Environmental Engineering,Universiti Putra Malaysia.

SectorEngineering

Based inMalaysiaSerdang

LanguagesEnglish

Short Bio

Dr. Syakina, a distinguished expert in green hydrogen production and fermentation technology, obtained her Ph.D. in Bioprocess Engineering through the prestigious Biasiswa Yang Dipertuan Agong scholarship in 2017. She has made significant contributions as a lecturer and serves as the Coordinator for Industrial Linkage at the Department of Chemical Engineering, Universiti Putra Malaysia. Additionally, she holds the position of Associate Researcher at the Institute of Nanoscience and Nanotechnology, Universiti Putra Malaysia.

Dr. Syakina's primary research focuses on waste-to-wealth production through biological technology, particularly in dark fermentation for hydrogen production. Her innovative approach involves developing green synthesis technologies using sustainable waste materials to create robust hydrogen producer capsules. These capsules play a crucial role in sustaining a high microbial population in hydrogen reactors, ensuring efficient and sustainable hydrogen production.

Apart from her work on hydrogen production, Dr. Syakina excels in enzyme fermentation technology, demonstrating expertise in converting solid waste and wastewater into value-added products enriched in enzymes. Her commitment to solving industrial problems through environmentally sustainable practices is evident in her research endeavors. Moreover, she imparts valuable knowledge to students, teaching wastewater treatment design to those pursuing a master's degree in environmental engineering.

For cutting-edge insights and practical solutions in green hydrogen production and sustainable wastewater management, Dr. Syakina stands as a trusted professional consultant. Utilize her expertise to advance your projects toward a greener and more sustainable future!

Focus TopicsRenewable energy, Chemicals, Agriculture, Sustainability, Innovation

Speaker levelRegular speaker

Job levelA-level (entry level and operative positions)

Selected conferences, presentations and speeches

2nd International Conference on Innovation in Chemical Engineering and Technology (ICICET 2023)

Selected articles, scientific papers, reports, publications

1. Mohd Jamaludin, N.F., Jamali, N.S., Abdullah, L.C., Idrus, S., Engliman, N.S., Abdul, P.M. 2023. Biohydrogen production with utilisation of magnetite nanoparticles embedded in granular activated carbon from coconut shell. International Journal of Hydrogen Energy, 48(31), 11695-11708.

2. Aili Hamzah, A.F., Hamzah, M.H., Che Man, H., Jamali, N.S., Siajam, S.I., Ismail, M.H. 2023. Effect of organic loading on anaerobic digestion of cow dung: Methane production and kinetic study. Heliyon, 9(6), 16791.

3. Woo, W.X., Tan, J.P., Wu, T.Y., Yeap, S.K., Indera Luthfi, A.A., Abdul Manaf, S.F., Jamali, N.S., Hui, Y.W. 2023. An overview on the factors affecting enzymatic saccharification of lignocellulosic biomass into fermentable sugars. Reviews In Chemical Engineering. 2191-0235 (Q1: IF 8.742)

4. Izzah Farhana, A.A., et al., Jamali, NS. 2023. Novel Pre-Treatment for Lignocellulosic Biomass Delignification Using Alkaline-Assisted Ohmic Heating. Pertanika, Universiti Putra Malaysia, (31):6. 3039-3057

5. Abdullah A.I.L., et al., Jamali, NS. 2023. Isolation and Characterization of Biohydrogen-Producing Bacteria for Biohydrogen Fermentation Using Oil Palm Biomass-Based Carbon Source. Applied Sciences, MDPI., 2076-3417.

6. Shamsul I., Jamali, N.S., Hasfalina, C.M., M.H. Hamzah, 2023. Subcritical Water Pretreatment for Anaerobic Digestion Enhancement: A Review. Pertanika, Universiti Putra Malaysia, National, [1-24].

7. Abdul Aziz, A.H., Engliman, N.S., Mansor, M.F., Abdul, P.M., Arisht, S.N., Jamali, N.S., Tiang, M.F. 2022. Synergistic enhancement of biohydrogen production by supplementing with green synthesized magnetic iron nanoparticles using thermophilic mixed bacteria culture. International Journal of Hydrogen Energy, 47(96), 40683-40695.

8. AFA Hamzah, MH Hamzah, NI Mazlan, HC Man, NS Jamali, SI Siajam, PL Show. 2022. Optimization of subcritical water pre-treatment for biogas enhancement on co-digestion of pineapple waste and cow dung using the response surface methodology. Waste Management. 150, 98-109.

9. SFA Manaf, AAI Luthfi, JP Tan, PM Abdul, NS Jamali. 2022. Kinetic study and model of fermentation parameters affected growth and xylitol production in bioreactor by Kluyveromyces marxianus ATCC 36,907. Biomass Conversion and Biorefinery. 1-17.

10. AFA Hamzah, MH Hamzah, HC Man, NS Jamali, SI Siajam, PL Show. 2022. Biogas Production Through Mono-and Co-digestion of Pineapple Waste and Cow Dung at Different Substrate Ratios. BioEnergy Research, 1-12

11. Shalini N.A., Rozieffa R., Goh A.G., Safa S.M., Mohd S.S., Chyi H.L., Shu-Yii W., Gong-Tao D., Jamali N.S., Jamaliah M.J., Peer M.A. 2021. Effect of nano zero-valent iron (nZVI) on biohydrogen production in anaerobic fermentation of oil palm frond juice using Clostridium butyricum JKT37. Biomass and Bioenergy 154, 106270. (Q1: IF 5.061)

12. Tuan Nurfarhana, T.M.M., Syazwani, I., Mohammed, A.M., Abdul, M.A.W., Jamali, N.S, Che Man, H., Sabrina, N.M.N. 2021. Enhancement of Bioreactor Performance Using Acclimatised Seed Sludge in Anaerobic Treatment of Chicken Slaughterhouse Wastewater: Laboratory Achievement, Energy Recovery, and Its Commercial-Scale Potential. Animals 11 (11), 3313.

13. Fazliyana, A., Ismail, M.H., Izhar, S., Jamali, N.S., Hasfalina, C,M., Hamzah, M.H. 2021. Recent Updates on The Conversion of Pineapple Waste (Ananas comosus) to Value-added Products, Future Perspectives and Challenges. Agronomy 11 (11), 2221. (Q1: IF 3.417)

14. NS Jamali, JM Jahim, T Mumtaz, PM Abdul. 2021. Dark fermentation of palm oil mill effluent by Caldicellulosiruptor saccharolyticus immobilized on activated carbon for thermophilic biohydrogen production. Environmental Technology & Innovation, (22), 101477. (Q1: IF 5.263)

15. SB Mahat, R Omar, HC Man, AIM Idris, SMM Kamal, A Idris, NS Jamali. 2021. Performance of dynamic anaerobic membrane bioreactor (DAnMBR) with phase separation in treating high strength food processing wastewater. Journal of Environmental Chemical Engineering 9 (3), 105245. (Q1: IF 5.909)

16. JB Tan, NS Jamali, WE Tan, H Che Man, Z Zainal Abidin. 2021. Techno-Economic Assessment of On-Farm Anaerobic Digestion System Using Attached-Biofilm Reactor in the Dairy Industry. Sustainability 13 (4), 2063. (Q2: IF 3.251)

17. Dzul Rashidi, N. F., Jamali, N. S., Mahammad, S. S., Ibrahim, M. F., Abdullah, N., Ismail, S. F., Siajam, S. I. 2020. Effect of Alginate and Chitosan on Activated Carbon as Immobilization Beads in Biohydrogen Production. Processes. 8 (10), 1254 (Q2: IF 2.847).

18. Jamali, N. S., Dzul Rashidi, N. F., J. M. Jahim, Sompong O. T, Aminee. J., Engliman, N. S. 2019. Thermophilic biohydrogen production from palm oil mill effluent: Effect of immobilized cells on granular activated carbon in fluidized bed reactor. Food and Bioproducts Processing 117:231-240. (Q2, IF=4.481).

19. Jamali, N. S., J. M. Jahim, Sompong O. T, Aminee. J. 2019. Hydrodynamic Characteristics and Model of Fluidized Bed Reactor with Immobilized Cells on Activated Carbon for Biohydrogen Production. International Journal of Hydrogen Energy 44:9256-9271. (Q2: IF=5.816)

20. Tan A. W., Jamali, N. S., Winnie H., Tien T. 2019. Phytoremediation of Palm Oil Mill Effluent (POME) Using Eichhornia crassipes. Journal of Applied Science & Process Engineering 6 (1), 340-354.

21. Jamali, N. S., J. M. Jahim, W. N. R. W. Isahak & P. M. Abdul 2017. Particle size variations of activated carbon on biofilm formation in thermophilic biohydrogen production from palm oil mill effluent. Energy Conversion and Management 141: 354-366. (Q1, Top 10%, IF=9.079)

22. Jamali, N. S., J. Md Jahim & W. N. R. Wan Isahak 2016. Biofilm formation on granular activated carbon in xylose and glucose mixture for thermophilic biohydrogen production. International Journal of Hydrogen Energy 41(46): 21617-21627. (Q2: IF=5.816)

23. Jamali, N. S., J. M. Jahim 2016. Optimization of Thermophilic Biohydrogen Production by Microflora of Palm Oil Mill Effluent: Cell Attachment on Granular Activated Carbon as Support Media. Malaysian Journal of Analytical Sciences 20(6): 1437 – 1446.