Mr Syed Imran Abbas Shah, Bahauddin Zakariya University Multan, Pakistan, Pakistan
🔬 Syed Imran Abbas Shah is a dedicated researcher and PhD candidate in Chemistry at Bahauddin Zakariya University, Multan 🎓. As a Research Associate at the Institute of Chemical Sciences, he specializes in electrochemical water remediation, energy storage, and nanomaterials ⚡🌱. His work focuses on designing biochar-based electrodes for CO₂ reduction and pollutant removal. Syed has authored multiple publications in top journals and actively reviews for prestigious journals like Nature and Elsevier 📝. With expertise in instruments like HPLC and spectrophotometers, he is passionate about sustainable solutions for environmental challenges 🌍🔋.
Publication Profile
Orcid
Education and Training
Mr. Syed Imran Abbas Shah is currently pursuing a Doctor of Philosophy in Chemistry at Bahauddin Zakariya University, Multan (September 2022 – Present), focusing on advanced research in chemical sciences. He holds a Master of Philosophy in Chemistry from the same institution (September 2022 – September 2024), with a thesis on biomass-derived surface-enhanced activated carbon for water remediation. Additionally, Mr. Shah completed his Bachelor’s in Chemistry at Bahauddin Zakariya University (October 2018 – September 2022), where he specialized in the synthesis of photocatalysts for various applications. His research aims to contribute significantly to environmental and chemical innovations. 🔬🌱💧
Experience
Mr. Syed Imran Abbas Shah is a Research Associate (PSF-NSFC) at the Institute of Chemical Sciences, Bahauddin Zakariya University Multan, Pakistan, since September 2024. He is responsible for designing and managing research projects, ensuring scientific rigor, and supervising experiments. He also conducts undergraduate lab practicals, fostering a collaborative learning environment. His expertise includes operating advanced instruments such as the Corrtest C2350, Metrohm Autolab PGSTAT-204, and Shimadzu HPLC. Mr. Shah’s work is vital in advancing research and supporting the development of future scientists. 🔬📊👨🔬🧪📚
Awards and Recognitions
Mr. Syed Imran Abbas Shah is a highly regarded expert, recognized by prestigious journals such as the Journal of Energy Storage, International Journal of Hydrogen Energy, and Scientific Reports, where he serves as a reviewer. His contributions to the scientific community extend beyond writing, as he has also delivered insightful talks at international conferences. These achievements highlight his extensive knowledge and ability to communicate complex ideas effectively, further solidifying his reputation as a valuable contributor to the field. 🌍📚🔬🎤💡
Conferences and Seminars
Mr. Syed Imran Abbas Shah will be a speaker at the 6th International Conference on Recent Trends in Chemistry, scheduled for February 2024. He will lead a technical discussion session, where he will deliver an insightful talk on the cutting-edge topics of electrocatalysis and interface engineering. His presentation aims to explore the latest advancements and applications in these fields, offering valuable insights for researchers and practitioners alike. This session promises to be a key part of the conference, contributing to the growing knowledge in chemistry and energy-related research. ⚡🔬🌍
Projects
Mr. Syed Imran Abbas Shah is leading innovative research in electrochemical solutions for environmental sustainability. His current projects include designing biochar-based gas diffusion electrodes for artificial photosynthesis and CO2 reduction (July 2024 – Present) 🌿🔋. He is also developing an effective water recovery solution using biomass-derived activated carbon through electrocatalysis (April 2023 – Present) 💧⚡. In addition, he is working on designing electrochemical sensing electrodes for detecting pollutants in natural drinking water (July 2023 – Present) 💦🧪. His work is focused on using advanced materials to tackle CO2 reduction, water pollution, and recovery challenges, promoting a cleaner, more sustainable future.
Research Focus
Syed Imran Abbas Shah’s research primarily focuses on the development of advanced materials for energy storage and environmental applications. He has made significant contributions to the synthesis and characterization of nanocomposites and nanorods, exploring their use in supercapacitors, water oxidation, and catalytic reactions. His work includes the fabrication of novel electrode materials such as Ni3S2/CoS2 and MnCo2Se4, as well as nanocomposites for energy storage solutions. His research also extends to environmental cleaning, where he investigates the potential of nanomaterials under visible light irradiation. 🌱⚡🔋🌍
Publication Top Notes