Prof Norasikin Othman | Materials Science | Best Researcher Award

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Prof Norasikin Othman | Materials Science | Best Researcher Award

Prof. Dr. Norasikin Othman is a distinguished professor in the Chemical Engineering Department at Universiti Teknologi Malaysia (UTM). With a career spanning over three decades, she has made significant contributions to chemical engineering research, particularly in liquid membrane technology and solvent extraction processes. She is a passionate educator, accomplished researcher, and active professional member in renowned engineering societies.

Prof Norasikin Othman, Universiti Teknologi, Malaysia 

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🎓 Academic Background

Prof. Dr. Norasikin Othman is a highly accomplished Chemical Engineer 🏗️ with an extensive academic background from Universiti Teknologi Malaysia (UTM). She earned her PhD in Chemical Engineering 🧪 in 2006, specializing in metal recovery using emulsion liquid membrane technology. Prior to this, she obtained her Master of Engineering (M.Eng.) in Chemical Engineering ⚙️ in 1997, enhancing her expertise in separation processes. Her journey began with a Bachelor’s degree in Chemical Engineering 🔬 in 1992, building a strong foundation in industrial applications. With her vast knowledge, she has contributed significantly to research, innovation, and academic excellence. 🚀

👨‍🏫 Professional Experience 

Prof. Dr. Norasikin Othman is a distinguished researcher and chemical engineering expert ⚙️ with extensive experience in academic evaluations, journal reviewing, and scientific conferences 🌍. She serves as a reviewer for high-impact Q1 & Q2 journals 📖, including Journal of Separation and Purification, Desalination, and Chemical Engineering Research & Design. She is also a technical evaluator panel member for major research grants, including GUP TIER 1, FRGS, and YUTP 🏆. A sought-after invited speaker 🎤, she has shared her insights at ICoST, ICCSS, and UTM seminars. Her contributions extend to book evaluations, panel reviews, and scientific committee roles. 🏅

🏆 Honors & Awards 

Prof. Dr. Norasikin Othman has received numerous prestigious awards 🏅 for her contributions to chemical engineering research and innovation 🔬. She has won multiple Gold, Silver, and Bronze Medals 🥇🥈🥉 at INATEX, MTE, and Seoul International Invention Fair, recognizing her groundbreaking work in silver recovery, dye recovery, and high-voltage demulsification ⚙️. She also received the Excellence Service Award (2008, 2012) for her dedication to academia 🎓. Notably, she earned the Best Award (MTE 2010) and Publication Award (2007) 📖. Her Bio-Inno Awards highlight her contributions to biotechnology and applied sciences, making her a distinguished researcher in her field. 🚀

🔬 Research Focus

Prof. Dr. Norasikin Othman specializes in separation processes ⚗️, with a focus on solvent extraction and liquid membrane technology 🌊. Her research aims to develop synergistic liquid membranes for removing and recovering pollutants from industrial wastewater 🚰. She explores reactive dye removal, phenol extraction kinetics, and chromium removal using eco-friendly membranes 🍃. Her innovative work on green liquid membrane formulation enhances metal and dye recovery, contributing to sustainable environmental solutions 🌍. By integrating advanced membrane fabrication 🏭, she addresses critical challenges in wastewater treatment, promoting cleaner industrial practices and efficient resource recovery 🔄.

📚 Publications

Separation of silver from photographic wastes by emulsion liquid membrane system 🧪
👨‍🏫 Authors: N. Othman, H. Mat, M. Goto
📖 Journal: Journal of Membrane Science 282 (1-2), 171-177 (2006)
📊 Citations: 210

Review of research progress on aluminium–magnesium dissimilar friction stir welding 🔩
👨‍🏫 Authors: L.H. Shah, N.H. Othman, A. Gerlich
📖 Journal: Science and Technology of Welding and Joining 23 (3), 256-270 (2018)
📊 Citations: 160

Performance of plastic wastes in fiber-reinforced concrete beams 🏗️
👨‍🏫 Authors: F.S. Khalid, J.M. Irwan, M.H.W. Ibrahim, N. Othman, S. Shahidan
📖 Journal: Construction and Building Materials 183, 451-464 (2018)
📊 Citations: 128

Easy removal of phenol from wastewater using vegetable oil-based organic solvent in emulsion liquid membrane process 🌱💧
👨‍🏫 Authors: N. Othman, N.F.M. Noah, L.Y. Shu, Z.Y. Ooi, N. Jusoh, M. Idroas, M. Goto
📖 Journal: Chinese Journal of Chemical Engineering 25 (1), 45-52 (2017)
📊 Citations: 111

Highly selective transport of palladium from electroplating wastewater using emulsion liquid membrane process ⚛️
👨‍🏫 Authors: N.F.M. Noah, N. Othman, N. Jusoh
📖 Journal: Journal of the Taiwan Institute of Chemical Engineers 64, 134-141 (2016)
📊 Citations: 90

Dr Guohang Tang | Sustainability in Material Science | Best Researcher Award

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Dr Guohang Tang | Sustainability in Material Science | Best Researcher Award

Dr. Guohang Tang is a doctoral researcher at Tongji University, specializing in geotechnical engineering and environmental sustainability 🏗️. His research focuses on CO₂ geological sequestration and the adsorption behavior of clay minerals, particularly illite ⛏️. His work provides critical insights into how moisture content and temperature influence CO₂ storage efficiency, contributing to climate change mitigation 🌱. He has published in SCI-indexed journals, such as Applied Clay Science and Measurement 📚. With expertise in carbon capture and storage (CCS) technologies, his research is paving the way for sustainable environmental engineering solutions 🏆.

Dr Guohang Tang, Tongji University, China

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Academic and Professional Background🎓🌍

Dr. Guohang Tang is a doctoral researcher at Tongji University, specializing in geotechnical engineering and environmental sustainability 🏗️. His research focuses on CO₂ geological sequestration and the adsorption behavior of clay minerals, particularly illite ⛏️. His studies provide critical insights into CO₂ interactions with geological materials, helping to improve carbon capture and storage (CCS) strategies 🌱. With extensive experience in environmental geotechnics, his work aims to enhance the efficiency of CO₂ sequestration under different moisture and temperature conditions 🔬. His contributions to sustainable engineering solutions are vital for addressing climate change challenges 🏆✨.

Research and Innovations🌱

Dr. Guohang Tang’s research focuses on CO₂ geological sequestration, clay mineralogy, and adsorption mechanisms 🏗️. He is currently working on a project analyzing CO₂ interactions with clay minerals, particularly illite ⛏️. His studies explore moisture content and temperature effects on CO₂ sequestration efficiency, aiding in the optimization of geological storage strategies 🌱. He has published in SCI-indexed journals such as Applied Clay Science and Measurement 📚. With a citation index of 10.5, his research significantly contributes to sustainable carbon capture solutions, addressing global climate change challenges 🏆✨.

Research Focus🔬

Dr. Guohang Tang’s research primarily focuses on CO₂ geological sequestration, soil mechanics, and environmental geotechnics 🏗️. His work explores adsorption mechanisms in clay minerals, particularly illite, and how moisture content and temperature affect CO₂ storage efficiency ⛏️. He also investigates soil freezing phase transitions, moisture migration, and soil suction measurement using polymer optical fiber (POF) sensors 🌱. His studies on soft soil composite foundations and geotechnical stability contribute to sustainable infrastructure and environmental protection 🏭. Through advanced experimental techniques and numerical simulations, his research enhances carbon capture, soil mechanics, and ground engineering strategies 🏆✨.

Publications📚

1️⃣ Real-time determination of soil suction in unsaturated clay based on POF sensor
🖊️ Authors: Tang, G., Ma, X., Zhang, H., Liu, Z., He, Y.
📖 Journal: Measurement: Journal of the International Measurement Confederation (2025)

2️⃣ Visualization of soil freezing phase transition and moisture migration using polymer optical fibers
🖊️ Authors: Zhang, H., Zhang, H., Liu, Z., Tang, G., Ma, X.
📖 Journal: Measurement: Journal of the International Measurement Confederation (2024)

3️⃣ Load-bearing response of deep content mixing soft soil composite foundation based on the geotechnical centrifugal model test
🖊️ Authors: Lin, Y., Tang, G., Ma, X., Ma, C.Y., Wang, Z.
📖 Journal: IOP Conference Series: Earth and Environmental Science (2024)

4️⃣ Numerical analysis of failure mechanism and stability of reinforced embankment with DCM soft soil composite foundation
🖊️ Authors: Ma, X.F., Ma, C.Y., Lin, Y.G., Tang, G.H., Wang, Z.H.
📖 Journal: IOP Conference Series: Earth and Environmental Science (2024)

5️⃣ Experimental study on influence of filter mesh size on radial permeability of sand
🖊️ Authors: Tang, G., Wang, N., Liu, S., Jie, Y.
📖 Journal: Journal of Beijing University of Aeronautics and Astronautics (2023)

6️⃣ One-dimensional pot cover effect for migration of gaseous water based on PDV model
🖊️ Authors: Tang, G.-H., Wang, N.-D., Yao, Y.-P.
📖 Journal: Chinese Journal of Geotechnical Engineering (2022)

These publications reflect Dr. Tang’s expertise in soil mechanics, CO₂ sequestration, and geotechnical engineering 🌍🏗️✨.

Werkne Sorsa | materials | Sustainable Materials Recognition

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Werkne Sorsa | materials | Sustainable Materials Recognition

Mr Werkne Sorsa, Jimma university and Applied forest university Germany, Ethiopia

🌍 Mr. Werkne Sorsa is a dedicated Senior Lecturer and researcher in the School of Chemical Engineering at Jimma University Institute of Technology. With a focus on 🌱 sustainable environmental engineering, he specializes in nanomaterials and has conducted impactful research on eco-friendly solutions, such as calcium oxide nanoparticles from corncobs and eggshells for cadmium removal. His technical skills include MATLAB, advanced analytical techniques (NMR, FTIR), and laboratory coordination. 📊 His recent publications on water remediation and waste management emphasize green chemistry approaches, making him a strong candidate for the 🌐 Sustainable Materials Recognition award.

Publication Profile

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Professional Highlights

Mr. Werkne Sorsa is a Senior Lecturer and researcher in the School of Chemical Engineering at Jimma University Institute of Technology. With a focus on environmental engineering and nanomaterials, his work includes developing sustainable processes for industrial applications and conducting experiments on nanoparticles for environmental remediation.

Academic Background

Mr. Sorsa holds an MSc in Environmental Engineering, with projects emphasizing sustainable solutions such as producing fuel oil from waste plastics and eco-friendly hand sanitizers. His research includes synthesizing corncob-supported calcium oxide nanoparticles from eggshells for removing cadmium from aqueous solutions.

Technical Skills

Mr. Sorsa is proficient in MATLAB, Excel, and advanced analytical instrumentation, including NMR and FTIR. His skills extend to chemical engineering software and laboratory coordination, contributing to his effective research practices.

Research Focus

🔬 Mr. Werkne Sorsa’s research centers on environmental remediation and sustainable water treatment. His work explores innovative approaches using natural and waste-derived materials like corncob-supported calcium oxide nanoparticles and biochar to tackle heavy metal contamination in water. His projects include cadmium and chromium removal from wastewater and nutrient extraction from coffee industry effluents using constructed wetlands. With methodologies like electrocoagulation and response surface analysis, Mr. Sorsa’s studies contribute to eco-friendly and cost-effective treatment solutions, emphasizing waste-to-resource innovations ♻️ and green chemistry 🌱. His research is vital for advancing sustainable environmental engineering practices\

Publication Top Notes

Corncob-supported calcium oxide nanoparticles from hen eggshells for cadmium (Cd-II) removal from aqueous solutions; Synthesis and characterization

Conclusion

Mr. Werkne Sorsa’s expertise in environmental engineering and sustainable materials positions him as an ideal candidate for the Sustainable Materials Recognition award. His research, which combines chemical engineering with environmental remediation, contributes significantly to eco-friendly and sustainable practices, underscoring his impact in the field.