DR. FARAHIN BINTI MOHD JAIS
Department of Civil Engineering
Faculty of Engineering
farahin.mohdjaisum.edu.myView CV | |
View 1-Page CV | |
Publons | |
Scopus Link | |
Biography | |
Dr. Farahin Mohd Jais is a senior lecturer in the Department of Civil Engineering. She was a previous recipient of the Programme Mahasiswa Cemerlang under the JPA scholarship during her Master's in Engineering of Science (Environmental) studies, and later pursued her Ph.D. in Environmental Engineering under the Skim Latihan Akademik Bumiputera (SLAB) fellowship. She specialized in water and wastewater treatment, with a focus on removing conventional and emerging water pollutants using carbon materials made from biomass waste. To date, she has synthesized water/wastewater treatment materials from a variety of biomass wastes, including spent coffee bean waste, pineapple leaf waste, palm shell waste, and sugarcane bagasse. Her experience in using adsorption technology for water/wastewater treatment has sparked her interest in diversifying into other technology including catalysis and membrane filtration. |
Publication
Finance
Project Title | Progress | Status |
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Pineapple Leaf Waste a Potential Source of Low-Cost Graphene Preparation for Water Remediation |
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on going |
Waste Not, Want Not: A Student-Centered Approach to Plastic Sustainability |
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on going |
Modification Of Pineapple Leaf Waste Hydrochar By Incorporation Of Lanthanum Magnetic Metal Organic Framework For High As Removal From Water: Experimental Analysis And Artificial Neural Network (ann) Analysis |
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This information is generated from Research Grant Management System |
Exploring the potential of industrial and municipal wastes for the development of alternative fuel source: A review
Overlooked roles of high-valence Sn in SnS2 loaded on gC3N4 for enhanced photocatalytic H2O2 production: Mechanism, DFT, and techno-economic analysis study
Updated review on current approaches and challenges for poly- and perfluoroalkyl substances removal using activated carbon-based adsorbents
Experimental Assessment of Mesophilic and Thermophilic Batch Fermentative Biohydrogen Production from Palm Oil Mill Effluent Using Response Surface Methodology