Subhan Mahmood | Chemistry and Materials Science | Best Researcher Award

Published on 20/08/202520/08/2025 by Research Hypothesis

Mr. Subhan Mahmood | Chemistry and Materials Science | Best Researcher Award

Mr. Subhan Mahmood | Chemistry and Materials Science | Phd Research Assistant | Sichuan University | China

Mr. Subhan Mahmood is a Pakistani chemical engineer and emerging researcher specializing in membrane technology, with a strong focus on environmental sustainability and advanced separation processes. He earned his BS in Chemical Engineering from the University of Engineering and Technology Lahore, followed by an MS in Chemical Engineering from COMSATS University Islamabad, where he worked on the development of high-performance mixed matrix membranes for water purification. Currently pursuing his PhD at Sichuan University, China, he is conducting research on electrocatalytic membranes utilizing ionic liquids and MOF-based fillers. His published work includes studies on mixed matrix membranes for CO₂ separation, and he has forthcoming publications on membrane systems for dye, heavy metals, and salt treatment. With practical training from Fauji Fertilizer Company and digital skills in Python, Matlab, Aspen Plus, and other engineering tools, he combines strong technical expertise with a research-driven mindset. Passionate about innovation in membrane systems, Mr. Subhan Mahmood is dedicated to developing sustainable solutions for global industrial and environmental challenges.

Professional Profile

Education

Mr. Subhan Mahmood has pursued a strong academic journey in chemical engineering, beginning with a Bachelor of Science in Chemical Engineering from the University of Engineering and Technology (UET) Lahore, where he completed a research thesis on the development of mixed matrix membranes for gas separation and successfully published his work in an international journal. Building on this foundation, he obtained a Master of Science in Chemical Engineering from COMSATS University Islamabad, where he specialized in chemical reaction engineering, polymer membranes, plasma chemical engineering, wastewater treatment, and instrumental analytical techniques. His master’s research focused on the development of high-performance mixed matrix membranes for water purification, earning him a strong academic record. Currently, he is advancing his expertise through a PhD in Chemical Engineering at Sichuan University, China, where his research centers on the fabrication of electrocatalytic membranes using ionic liquids and MOF-based fillers, reflecting his dedication to innovation in sustainable membrane technologies.

Professional Experience

Mr. Subhan Mahmood has gained valuable professional experience that complements his strong academic background in chemical engineering. He began his career with an internship at Fauji Fertilizer Company Limited, one of Pakistan’s leading industrial enterprises, where he received hands-on training in ammonia production processes and the operation of key equipment such as pumps, mixers, scrubbers, and energy exchangers. During this internship, he also contributed to a research project focused on optimizing water purification through membrane systems, aligning with his long-term research interests. Building on this foundation, he is currently serving as a University Research Assistant at Sichuan University, China, where he is engaged in advanced research on the fabrication of electrocatalytic membranes using ionic liquids and MOF-based fillers. His professional journey demonstrates a blend of industrial training and cutting-edge academic research, highlighting his commitment to developing innovative and sustainable engineering solutions.

Research Interest

Mr. Subhan Mahmood research interests lie at the intersection of membrane technology, sustainable chemical engineering, and environmental remediation. He is particularly focused on the design and development of advanced mixed matrix membranes and electrocatalytic membranes for applications such as gas separation, water purification, dye removal, and the treatment of heavy metals and salts. His work emphasizes the use of innovative materials, including ionic liquids, polymer composites, and MOF-based fillers, to enhance membrane performance under challenging industrial and environmental conditions. Driven by the vision that membrane systems represent the future of global technology, his research is geared toward creating cost-effective, energy-efficient, and scalable solutions that address critical global challenges such as clean energy, wastewater management, and pollution control.

Award and Honor

Mr. Subhan Mahmood has earned notable academic and professional recognition that reflects his dedication and potential as a researcher in chemical engineering. He secured a research publication during his undergraduate studies, which is a significant achievement at an early career stage and highlights his commitment to advancing knowledge in membrane technology. His selection as a PhD research assistant at Sichuan University, one of China’s top-ranked universities, also stands as an honor, demonstrating international acknowledgment of his research capabilities and expertise. Furthermore, his consistent academic performance, with strong results during both his bachelor’s and master’s programs, reinforces his standing as a promising scholar. These accomplishments collectively underscore his growing reputation and position him as a deserving candidate for further recognition and awards in his field.

Publications Top Noted

Development and Performance Evaluation of Cellulose Acetate‐Bentonite Mixed Matrix Membranes for CO₂ Separation
Year: 2020

Microwave-Assisted Oxidative Degradation of Lignin Catalyzed by Hydrogen Peroxide–Alkaline Ionic Liquid System
Year: 2025

Natural products as probes for the spectral analysis and sensitive detection of metal-containing ionic liquids
Year: 2025

Purification of crude tea tree oil through enrichment of terpinen-4-ol by in-situ formation of deep eutectic solvent
Year: 2025

Medical masks depolymerized with acidic deep eutectic solvents and applications for oil absorption
Year: 2025

Fabrication of carbon dots from Siraitia grosvenorii shells and their fluorescent response for deep eutectic solvents
Year: 2025

Conclusion

Mr. Subhan Mahmood embodies the qualities of a dedicated, innovative, and forward-looking researcher in chemical engineering. His work in membrane technology demonstrates both academic rigor and societal relevance, positioning him as a strong candidate for the Best Researcher Award. While his early-career stage naturally leaves room for growth in publications, collaborations, and global recognition, his trajectory reflects significant potential to emerge as a leading researcher in sustainable materials and environmental engineering. With continued focus and academic engagement, he is highly suitable for recognition through this award.

Zia Ul Haq Khan | Chemistry | Best Researcher Award

Published on 14/02/202514/02/2025 by Research Hypothesis

Zia Ul Haq Khan | Chemistry and Materials Science | Best Researcher Award

Prof Zia Ul Haq Khan, COMSATS University Islamabad, Pakistan

🔬 Prof. Dr. Zia Ul Haq Khan is an accomplished chemist specializing in Material Chemistry, Organic Synthesis, and Nanocomposite Materials. 🎓 He earned his Ph.D. from Beijing University of Chemical Technology, China, and currently serves as an Associate Professor at COMSATS University Islamabad. His research spans electrochemical synthesis, green synthesis of nanoparticles, and biomedical applications. 🧪 He’s a recipient of prestigious awards like the Pakistan Chemical Society Gold Medal 🏅 and the Dr. Atta Ur Rahman Medal. A passionate educator and prolific researcher, Dr. Khan actively contributes as a reviewer for leading journals and participates in international conferences. 🌱⚛️

Publication Profile

Scopus

Academic Distinction

Prof. Zia Ul Haq Khan 🧪🎓 is a distinguished chemist who has received several prestigious accolades for his remarkable contributions to the field of chemistry. His achievements include the highly esteemed Dr. Atta Ur Rahman Gold Medal 🥇, recognizing his outstanding research and academic excellence. Additionally, he was honored with the Pakistan Chemical Society Gold Medal 🏆, reflecting his significant impact on chemical sciences in Pakistan. Prof. Khan’s dedication, innovative work, and passion for advancing scientific knowledge have earned him a prominent place in the academic community, inspiring future generations of researchers and scholars. 🔬📖💡

Research Excellence

Prof. Zia Ul Haq Khan is a dedicated researcher in material chemistry, electrochemistry, and medicinal chemistry 🔬⚛️. His innovative work, published in journals like Journal of Water Process Engineering and Nanoscale Advances, showcases advancements in environmental sustainability 🌱, biomedical applications 🏥, and energy storage ⚡. Prof. Khan’s research contributes to cleaner water systems, enhanced medical treatments, and efficient energy solutions, making a significant impact on science and society. His interdisciplinary expertise bridges chemistry and real-world applications, driving forward solutions for a more sustainable and healthier future 🌏💡.

Experience

Prof. Zia Ul Haq Khan is an accomplished academic with a strong background in chemistry and environmental sciences. 🧪🌱 He currently serves as an Associate Professor at COMSATS University Islamabad (CUI) since June 2023. Previously, he held the same position at CUI Vehari in May 2023, after serving as an Assistant Professor there from 2017 to 2023. 👨‍🏫 His academic journey includes a year as Assistant Professor at the University of Science and Technology, Bannu (2015-2016), and earlier roles as Lecturer at Government Degree College Bannu (2010-2012) and Government Post Graduate College Bannu (2007-2008). 🎓📖 His dedication to teaching and research is remarkable. 🌟

Research Focus

Prof. Zia Ul Haq Khan’s research focuses on advanced materials and environmental sustainability 🌱🔬. His work spans electrochemical advanced oxidation processes for pesticide-contaminated water treatment 💧, supercapacitor applications with metal oxide nanocomposites ⚡, and innovative biochar-metal oxide nanoparticles for dye removal 🌿🎨. He also explores biomedical applications of chitosan derivatives in cancer therapy 🎗️🧬 and develops dual-signal sensing platforms for amino acid detection in biological fluids 🩸🧪. His research bridges environmental protection, renewable energy, and biomedical advancements, contributing to cleaner ecosystems and innovative healthcare solutions 🌍⚙️.

Publication Top Notes

Electrochemical Advanced Oxidation Processes as a feasible approach towards treatment of pesticides contaminated water and environmental sustainability:

An octahedral metal oxide nanoparticle-based dual-signal sensing platform for simultaneous detection of histidine and lysine in human blood plasma and urine

Study of supercapacitor applications of supported and unsupported cobalt ferrite and Zn-doped cobalt ferrite nanocomposites

Recent developments in the biomedical and anticancer applications of chitosan derivatives

Innovations in metal oxides-biochar nanoparticles for dye removal

Fabrication of CdS NRs /MoS₂@g-C₃N₄ nanotubes for efficient photoelectrochemical hydrogen production

Fabrication of nickel ferrite@MWCNTs for super-capacitor applications

Fabrication of Supported and Unsupported Gold Nanorods for Nonenzymatic Glucose Sensing and Study of Their Growth Kinetics

Electrochemical investigation of Pd-Au/BC nanocomposite-biochar and their photocatalytic and energy storage applications

Liu Xiaolu | Chemistry and Materials Science | Best Researcher Award

Published on 12/02/202512/02/2025 by Research Hypothesis

Liu Xiaolu | Chemistry and Materials Science | Best Researcher Award

Ms Liu Xiaolu, North China Electric Power University, China

🎓 Ms. Liu Xiaolu is a dedicated researcher pursuing her Ph.D. at North China Electric Power University (2022–present), after earning her Master’s (2019–2022) and Bachelor’s (2015–2019) degrees from the same university and Yanshan University, respectively. 🧪 Her research focuses on functional porous nanomaterials and radionuclide separation. 🌍 She has authored 17 papers in prestigious journals like Nat. Commun., Adv. Sci., and Langmuir. 📚 Liu actively participates in global conferences, including ACS Spring 2024. Her groundbreaking work on MOFs, COFs, and electrocatalysis is shaping innovations in energy and environmental applications. ⚡🌱

Publication Profile

Scopus

Education

Ms. Liu Xiaolu 🎓 began her academic journey at Yanshan University, earning her Bachelor’s degree between September 2015 and June 2019 📚. Driven by a passion for further knowledge, she pursued her Master’s degree at North China Electric Power University from September 2019 to June 2022 ⚡. Continuing her academic excellence, she is currently a dedicated Doctoral candidate at the same university since September 2022 📝. Her commitment to education and research showcases her strong determination and academic growth 🌟.

Research Achievement

Ms. Liu Xiaolu is a prolific researcher with 17 first-author publications in prestigious journals like Nature Communications 🌍, Advanced Science 🚀, Langmuir 🌊, and Innovation 💡. Her representative works include papers in Nat. Commun. (2024, 15, 7736), Adv. Sci. (2022, 9, 2201735; 2023, 10, 2303536), J. Mater. Chem. A (2021, 9, 21051-6), and Crit. Rev. Env. Sci. Tec. (2021, 51, 751-790; 2023, 53, 1289-1309) 📚. She has significantly contributed to Environmental Pollution 🌿, Sci. China. Chem. 🧪, and EEH 🔬. Her research showcases innovation and scientific excellence, reflecting her dedication to impactful discoveries. ✨

Academic Conference

Ms. Liu Xiaolu has actively participated in several prestigious conferences, showcasing her expertise in environmental and radiochemistry. 🌍 She attended the 1st Conference of Carbon Research in Guangzhou, China (March 24–26, 2023) and the 12th National Conference on Environmental Chemistry in Wuhan, China (November 17–21, 2023). 🧪 Additionally, she contributed to the Conference of National Radiochemistry Development Strategy and Academic Exchange in Nanchang (October 20–23, 2023). ⚛️ Expanding her global reach, Ms. Liu joined the ACS Spring 2024 Meeting held online from New Orleans (March 17–21, 2024), reflecting her dedication to scientific growth and collaboration. 🌐

Research Interest

Ms. Liu Xiaolu specializes in the design and synthesis of functional porous nanomaterials 🧪, focusing on creating advanced materials with unique structures and properties. Her research also delves into the separation and extraction of radionuclides ⚛️, aiming to enhance techniques for environmental protection and nuclear waste management 🌍. By combining innovative nanotechnology with efficient separation methods, she contributes to sustainable solutions in energy and environmental sciences 💡. Her work bridges the gap between material science and nuclear chemistry, paving the way for safer and cleaner technologies in the future 🚀.

Research Focus

Ms. Liu Xiaolu’s research focuses on advanced materials like Metal-Organic Frameworks (MOFs), Covalent Organic Frameworks (COFs), and their derivatives for energy and environmental applications 🌱⚡. Her work explores innovative approaches to electrocatalytic CO₂ reduction, enhancing photocatalytic performance, and piezocatalytic techniques for pollutant degradation 🌍🔬. By modulating the coordination environment of atomically dispersed metals, she aims to improve efficiency in low-overpotential and industrial-scale processes ⚡⚗️. Her research contributes to sustainable solutions for clean energy and environmental remediation, addressing global challenges in pollution control and renewable energy 🌊🌞.

Publication Top Notes

Emerging MOFs, COFs, and their derivatives for energy and environmental applications

Modulating the Coordination Environment of Atomically Dispersed Nickel for Efficient Electrocatalytic CO₂ Reduction at Low Overpotentials and Industrial Current Densities

Rational Design of 3D Space Connected Donor–Acceptor System in Covalent Organic Frameworks for Enhanced Photocatalytic Performance

Piezocatalytic techniques and materials for degradation of organic pollutants from aqueous solution

Conclusion

Ms. Liu Xiaolu is a distinguished researcher known for her outstanding publication record 📚, innovative research in environmental and energy applications 🌍⚡, and active participation in international conferences 🌐🎤. Her groundbreaking work contributes significantly to sustainable solutions, addressing global environmental challenges with creativity and expertise 🌱🔬. Ms. Liu’s dedication to advancing knowledge and her impactful presence in the research community make her a highly suitable candidate for the Best Researcher Award 🏆🎓. Her passion for scientific excellence and commitment to global sustainability continue to inspire peers and future researchers alike 🌟💡.

Lin He | Chemistry and Materials Science | Best Researcher Award

Published on 05/12/202405/12/2024 by Research Hypothesis

Lin He |Chemistry and Materials Science | Best Researcher Award

Prof Lin He, Shihezi University, China

Prof. Lin He is a distinguished Organic Chemist, currently a Full Professor at Shihezi University, specializing in synthetic methodology and organocatalysis. He earned his Ph.D. in Organic Chemistry from the Chinese Academy of Sciences (2005-2008), and his M.S. and B.S. degrees from the University of Science and Technology of China and Qufu Normal University. He has been a visiting scholar at the University of Bristol (2017-2018). Prof. He has published numerous research articles on aryne reactions, multi-component reactions, and visible-light photochemistry, contributing significantly to the field of organic synthesis. 🧪🔬📚🌟

Publication Profile

Scopus

Education

Prof. Lin He has an extensive academic background in Organic Chemistry. He earned his Ph.D. in Organic Chemistry from the Institute of Chemistry, Chinese Academy of Sciences (2005-2008), after completing his M.S. in Organic Chemistry at the University of Science and Technology of China (2002-2005). Prior to that, he obtained his B.S. in Chemistry from Qufu Normal University (1998-2002). Prof. He’s research journey reflects a strong foundation in chemistry, contributing to advancements in the field. 🌟📚🧪

Experience

Prof. Lin He is a distinguished academic in Organic Chemistry. From October 2014, he has served as a Full Professor at the School of Chemistry and Chemical Engineering, Shihezi University. Previously, from 2008 to 2014, he was an Associate Professor at the same institution. In addition, he was a CSC Visiting Scholar at the University of Bristol from March 2017 to March 2018, further enhancing his expertise in the field. Prof. He’s contributions to organic chemistry research and education are widely recognized, and he continues to inspire both students and colleagues. 🔬📚🌍

Research Interests

Prof. Lin He is a leading expert in synthetic methodology, specializing in the development of efficient and innovative approaches for organic synthesis. His research focuses on organocatalysis, a powerful technique that uses small organic molecules to catalyze chemical reactions. This field has gained significant attention due to its sustainability, selectivity, and mild reaction conditions. Prof. He’s work has contributed to expanding the scope of organocatalysis, enabling the creation of complex molecules with precision and efficiency. His contributions have paved the way for greener and more sustainable chemical processes, with broad applications in pharmaceuticals and materials science. 🧪🔬🌿

Research Focus

Prof. Lin He focuses on advanced synthetic organic chemistry, with particular expertise in N-heterocyclic carbene (NHC)-catalyzed reactions. His research includes the development of novel catalytic systems for C–P coupling, sulfur and selenium chemistry, and asymmetric synthesis of complex molecules. Prof. He also explores photoinduced electron transfer in lignin model systems and the creation of functionalized sulfilimines and chiral amines. His work contributes significantly to sustainable chemical processes and materials science, particularly in the context of energy and environmental applications. Key topics include catalysis, photoinduced reactions, and the synthesis of bioactive compounds. 🧪🔬⚗️🌱

Publication Top Notes

Photoinduced Single Electron Reduction of the 4-O-5 Linkage in Lignin Models for C-P Coupling Catalyzed by Bifunctional N-Heterocyclic Carbenes

Trideuteromethylthiolation through Reaction of Arynes, S-Methyl-d₃ Sulfonothioate with Sulfonamides or Amides: Access to Trideuteromethylated Sulfilimines

N-Heterocyclic Carbene (NHC)-Catalyzed [3＋2] Cycloaddition to Highly Diastereoselective Synthesis of Spirooxindole Dihydrofuran Fused Pyrazolone Compounds

Asymmetric Synthesis of Tertiary α-Hydroxylation-Cyclopentanones via Synergetic Catalysis of Chiral-at-Metal Rhodium(III) Complexes/Pyrrolidine

Chalcogen bonding enabled photosynthesis of aryl selenides from aryl sulfonium salts

SuFEx Reactions of Sulfonyl Fluorides, Fluorosulfates, and Sulfamoyl Fluorides Catalyzed by N-Heterocyclic Carbenes

Divergent synthesis of chiral amines via Ni-catalyzed chemo- and enantioselective hydrogenation of alkynone imines

Conclusion

Prof. Lin He’s distinguished academic career and impactful research in Organic Chemistry make him a strong contender for the Best Researcher Award. His groundbreaking work in synthetic methodologies and organocatalysis has advanced the field, bringing innovative solutions to chemical research. With numerous influential publications and continuous contributions, Prof. He has significantly impacted the scientific community. His excellence in both research and teaching has earned him recognition as a leader in his field. His dedication to advancing knowledge in Organic Chemistry highlights his deserving candidacy for this prestigious award. 🏅🔬📚🧪

Alireza Abbasi | Chemistry and Materials Science | Environmental Impact Award

Published on 28/08/202428/08/2024 by Research Hypothesis

Alireza Abbasi | Chemistry and Materials Science | Environmental Impact Award

Prof Alireza Abbasi, Uinversity of Tehran, Iran

Based on the information provided, Prof Alireza Abbasi appears to be a strong candidate for the Best Researcher Award

Publication profile

google scholar

Prof. Alireza Abbasi’s Academic and Professional Journey

Prof. Alireza Abbasi has a rich academic background, beginning with his high school diploma in Math & Physics from Modares Comprehensive School, Tehran. He then pursued a B.Sc. in Applied Chemistry at Sharif University of Technology, followed by various research and professional engagements, including a guest researcher position at the Royal Institute of Technology (KTH), Stockholm, and a Ph.D. from Stockholm University. His early academic and professional experiences laid a strong foundation for his future contributions to the field of chemistry.

Extensive Academic Contributions and Leadership Roles

Since joining the University of Tehran’s School of Chemistry in 2005, Prof. Abbasi has progressively advanced to the rank of Professor. He has held multiple leadership positions, including Dean Deputy for Research, Head of Inorganic Division, and Vice Chancellor of Education. His leadership roles have been instrumental in shaping the academic and research directions of the Department of Chemistry at the University of Tehran, demonstrating his commitment to advancing scientific knowledge and education.

Honors, Awards, and International Collaborations

Prof. Abbasi’s contributions to chemistry have been recognized through various honors, including being selected as the best teacher at the University of Tehran’s Department of Chemistry. His international collaborations, particularly with Stockholm University, have further expanded his research impact, allowing him to supervise Iranian guest students and contribute to global scientific dialogues. These accolades and collaborations highlight his standing in the academic community.

Teaching Excellence and Workshop Participation

Throughout his career, Prof. Abbasi has demonstrated a strong commitment to teaching, both at Stockholm University and the University of Tehran. His teaching portfolio includes courses in General Chemistry, Inorganic Chemistry, and advanced topics in nanomaterials. Additionally, his participation in specialized workshops, such as the XAFS workshop in Sweden, showcases his dedication to continuous learning and knowledge dissemination. His teaching excellence is a testament to his ability to inspire and educate the next generation of chemists.

Advanced Training and Conference Participation

Prof. Abbasi has undergone advanced training in various cutting-edge techniques, including X-ray crystallography, vibrational spectroscopy, and X-ray absorption spectroscopy. His participation in numerous international conferences, such as the Nordic Symposium on Coordination Chemistry and the International Conference on Nanotechnology, underscores his active engagement with the global scientific community. These experiences have enriched his research capabilities and positioned him as a thought leader in his field.

Research Publications and Impact

Prof. Abbasi’s extensive list of publications, including contributions to high-impact journals like Inorganic Chemistry, Dalton Transactions, and Chem. Eur. J., reflects his significant research contributions to the field of chemistry. His work spans various areas, including structural studies of metal ions, vibrational spectroscopy, and crystal structures, highlighting his diverse research interests and impact. His research publications demonstrate his expertise and ongoing commitment to advancing scientific knowledge.

Conclusion

Prof. Alireza Abbasi’s distinguished academic journey, leadership roles, teaching excellence, international collaborations, advanced training, active participation in conferences, and impactful research publications make him a highly suitable candidate for the Best Researcher Award. His contributions have significantly advanced the field of chemistry, and his dedication to both research and education continues to inspire and benefit the scientific community. Prof. Abbasi’s comprehensive and multifaceted career positions him as a leading figure in his field, deserving of recognition for his outstanding achievements.