Abdul Rahman Mohamed | Nanotechnology | Best Researcher Award

Published on 19/06/202519/06/2025 by Research Hypothesis

Prof. Dr. Abdul Rahman Mohamed | Nanotechnology | Best Researcher Award

Professor in Catalysis & Reaction Engineering at Universiti Sains Malaysia, Malaysia

Professor Dato’ Seri Ir. Dr. Abdul Rahman Mohamed is a distinguished chemical engineering scholar and visionary academic leader, currently serving as the Vice-Chancellor of Universiti Sains Malaysia (USM). With a Ph.D. from the University of New Hampshire, his research spans nanotechnology, catalysis, fuel technology, and environmental engineering. Over a career spanning three decades, he has held multiple high-impact roles including Deputy Vice-Chancellor of Research & Innovation and Director of several national-industry collaborations such as CREST. He is a Fellow of the Academy of Sciences Malaysia and the Institution of Chemical Engineers (UK), as well as a Chartered Engineer. Professor Rahman has received numerous national and international accolades, including the Clarivate Highly Cited Researcher Award (2018, 2019, 2021), multiple gold medals in global invention fairs, and prestigious state honors for his service to science and education. Renowned for his contributions to both academic excellence and innovation, he stands as one of Malaysia’s most impactful researchers and science policy advocates.

Professional Profile

🎓 Education of Professor Abdul Rahman Mohamed

Professor Dato’ Seri Ir. Dr. Abdul Rahman Mohamed possesses a strong academic foundation in chemical engineering, having earned all his degrees from prestigious institutions in the United States. He obtained his Ph.D. in Chemical Engineering in 1993 and Master’s degree in 1989 from the University of New Hampshire, where he also served as a highly recognized Graduate Teaching Assistant. His academic journey began with a Bachelor’s degree in Chemical Engineering from the University of Southern California in 1986. This robust educational background laid the groundwork for his distinguished career in research, innovation, and academic leadership.

💼 Professional Experience of Professor Abdul Rahman Mohamed

Professor Dato’ Seri Ir. Dr. Abdul Rahman Mohamed has built an illustrious professional career rooted in academia, research, and institutional leadership. Beginning as a Lecturer at Universiti Sains Malaysia (USM) in 1993, he steadily rose through the ranks to become a full Professor in 2004. He has held several key leadership roles, including Dean of the School of Chemical Engineering, Director of Industry Collaborative Centres, and Head of CREST, a national platform for industry-academic research collaboration. He served as Deputy Vice-Chancellor for Research and Innovation and is currently the Vice-Chancellor of USM, a testament to his exceptional administrative acumen. His career reflects a deep commitment to fostering academic excellence, driving innovation, and building bridges between academia and industry, both nationally and internationally.

🔬 Research Interests of Professor Abdul Rahman Mohamed

Professor Dato’ Seri Ir. Dr. Abdul Rahman Mohamed’s research interests lie at the intersection of advanced engineering and environmental sustainability. His core focus areas include nanoscience and nanotechnology, reaction engineering and catalysis, fuel technology, and air pollution and wastewater control engineering. He has significantly contributed to developing innovative catalytic systems and clean energy solutions, addressing global challenges related to energy efficiency and environmental protection. His work is characterized by interdisciplinary approaches that integrate chemical engineering principles with cutting-edge technologies, positioning him as a leading figure in sustainable process engineering and green technology development.

🏅 Awards and Honors of Professor Abdul Rahman Mohamed

Professor Dato’ Seri Ir. Dr. Abdul Rahman Mohamed has received numerous prestigious awards and honors in recognition of his exceptional contributions to science, innovation, and academia. Nationally, he has been conferred multiple state honors such as the Johan Mangku Negara (J.M.N.), Darjah Gemilang Pangkuan Negeri, and Tokoh Pendidikan Maal Hijrah for his service to education and research. Internationally, he has earned Gold Medals at global innovation fairs including the Geneva International Exhibition, Seoul International Invention Fair, and IENA Germany, along with special prizes for technical creativity. He is a Clarivate Highly Cited Researcher (2018, 2019, 2021), and recipient of the Top Research Scientists Malaysia title. His accolades also include university-level awards such as the Sanggar Sanjung Award and Anugerah Perkhidmatan Cemerlang, reflecting sustained excellence in research, innovation, and academic leadership across multiple domains.

📚 Publications

1.Optimization of MILD chamber design for combustion of producer gas from biomass gasification

Authors: Not specified
Year: 2025
Citations: 0

2. Optimized glycerol-based organosolv pretreatment for lignin removal: Enhancing sawdust pyrolysis efficiency and bio‑oil properties

Authors: Not specified
Year: 2025
Citations: 0

3. Recent advances in hydrogen production by solar photoreforming of plastic feedstocks using nanocatalytic materials: A review

Authors: Not specified
Year: 2025
Citations: 0

4. Integration of SnFe₂O₄ nanoparticles onto BiOBr nanosheets to form a new 0D/2D Z‑scheme nanocomposite for ameliorating synchronous visible light photocatalytic eradication of organic pollutants and Cr(VI) in wastewater

Authors: Not specified
Year: 2025
Citations: 0

5. Construction of Fe₃O₄/ZnO heterostructure photocatalysts derived from Fe‑doped ZIF‑8 for enhanced photocatalytic degradation of tetracycline and hydrogen peroxide production

Authors: Not specified
Year: 2025
Citations: 0

6. Synthesis of ultrasonicated amine‑functionalized MgO‑deposited empty fruit bunch (EFB)‑derived biochar for CO₂ adsorption

Authors: Not specified
Year: 2025
Citations: 2

7. Development of carbon dots from lignocellulose oil palm wastes: A potential CO₂ adsorbent (Conference Paper)

Authors: Not specified
Year: 2025
Citations: 0

8. An investigation on sequential ultrasonication and metal modification of biochar on its CO₂ capture performance

Authors: Not specified
Year: 2024
Citations: 9

9. One‑pot synthesis of regenerative calcium counterions from waste chicken eggshells for SO₂‑to‑sulfur reduction

Authors: Not specified
Year: 2024
Citations: 4

10. Synergistic effect of dual phase cocatalysts: MoC‑Mo₂C quantum dots anchored on g‑C₃N₄ for high‑stability photocatalytic hydrogen evolution

Authors: Not specified
Year: 2024
Citations: 12

GULDANA MAKASHEVA | Engineering and Technology | Research Hypothesis Excellence Award

Published on 30/05/202530/05/2025 by Research Hypothesis

GULDANA MAKASHEVA | Engineering and Technology | Research Hypothesis Excellence Award

Leading Research Scientist at LLP KazHydroMed, Kazakhstan

Mrs. Guldana Makasheva is a seasoned metallurgical researcher and Senior Research Scientist at LLP KazHydroMed, Kazakhstan. With over a decade of hands-on and theoretical experience across various roles in metallurgy, her expertise lies in flotation, hydrometallurgy, and the beneficiation of complex ores and industrial tailings. She is currently pursuing a Ph.D. in Metallurgy at Satbayev University and holds advanced degrees in Metallurgy and Organic Chemistry. Her career spans from laboratory chemist to lead engineer, demonstrating her adaptability and growth. Makasheva has authored numerous scientific publications in both national and international journals and has contributed to high-impact projects aimed at developing eco-friendly and efficient mineral processing technologies. Her research, marked by technical precision and practical relevance, has addressed pressing industrial challenges in Kazakhstan’s mining sector. With a strong foundation in hypothesis-driven experimentation, she exemplifies the principles celebrated by the Research Hypothesis Excellence Award.

Publication Profile

Orcid

Education

Mrs. Makasheva holds a Master’s degree in Technical Sciences with a specialization in Metallurgy and Mineral Processing from Satbayev University, one of Kazakhstan’s premier technical institutions. Her academic foundation began with a Bachelor’s in Chemistry of Organic Substances from Karaganda State University named after E.A. Buketov, where she gained solid grounding in analytical and synthetic chemistry. Continuing her academic journey, she is currently pursuing her Ph.D. in Metallurgy at Satbayev University (2023–present), focusing on advanced beneficiation techniques and processing of complex ore materials. Her academic background is complemented by specialized certifications, including a Certified PC User qualification and Accounting & 1C certification, highlighting her commitment to interdisciplinary skills. Her education has consistently supported her progression as a research leader in metallurgical science, emphasizing innovation, practical application, and publication in high-impact forums. 🎓📘🧪

Experience

Mrs. Guldana Makasheva’s professional trajectory reflects deep engagement with Kazakhstan’s metallurgical sector. Since 2021, she has served as a Senior Research Scientist at LLP KazHydroMed, where she designed cutting-edge research programs and executed pilot-scale tests in slag and ore processing. Earlier, as Lead Process Engineer at JSC “Zhairem GOK” (2020–2021), she worked on mineral flow diagrams and thickening technologies. At JSC “Varvarinskoye” (2011–2020), she ascended from Laboratory Chemist to Metallurgical Process Engineer, gaining end-to-end operational experience—from ore crushing to desorption and AAS/XRF analysis. Her earliest role was at the Institute of Organic Synthesis and Coal Chemistry, where she synthesized catalysts and conducted chromatographic studies. Each position honed her skills in technical reporting, pilot experiments, and project leadership, building a solid foundation for her present-day research excellence.

Awards and Honors

While specific national or international awards are not listed, Mrs. Guldana Makasheva’s consistent leadership in funded scientific projects and co-authorship of peer-reviewed publications signifies her recognition within the scientific community. Her appointment as Lead Investigator across multiple major projects—such as beneficiation of legacy tailings and development of flotation technologies—indicates institutional trust and high-level peer acknowledgment. She has also been a frequent contributor to SCOPUS-indexed and national journals, suggesting editorial confidence in her scientific rigor. As a Senior Research Scientist, she has been a key figure in government and industrial research initiatives, often coordinating multidisciplinary teams to address Kazakhstan’s critical metallurgical challenges. Her accolades are implicit in her elevation to senior scientific ranks and her pivotal roles in transformative projects. Her ongoing Ph.D. candidacy further reflects academic recognition and career progression.

Research Focus

Mrs. Makasheva’s research spans flotation chemistry, hydrometallurgical processing, ore beneficiation, and tailings revalorization. Her core investigations involve innovative techniques for processing refractory oxidized ores and polymetallic tailings, with special emphasis on flotation using hydroxamate-based collectors and gravity-flotation technologies. She has actively contributed to pilot testing for slag processing from metallurgical plants and has optimized concentrate thickening strategies. Her projects are critical to sustainable resource management, addressing legacy waste streams from major mining hubs like Balkhash and Zhezkazgan. Guldana also explores the oxidative-reductive potential in ore enrichment and thermochemical methods for improving flotation performance. Her current Ph.D. research likely intersects with these themes, pushing boundaries in extractive metallurgy. With a clear focus on bridging lab research with field applications, her work is both environmentally and economically transformative.

Publication Top Notes

Study of Oxidative–Reductive Potential Changes in the Enrichment of Oxidized Polymetallic Ores

Improving the Efficiency of Flotation Enrichment of Oxidized Lead-Zinc Ores Using Calcium Polysulfide

Study of Oxidative-Reductive Potential Changes in the Enrichment of Oxidized Polymetallic Ores

HYDROMETALLURGICAL PROCESSING OF MOLYBDENUM MIDDLINGS FROM SHATYRKUL-ZHAYSAN CLUSTER ORE,HIDROMETALURŠKA PRERADA SRASLAKA MOLIBDENA IZ RUDE ŠATIRKUL-ŽAJSAN KLASTERA

STUDIES ON EXTRACTION OF COPPER FROM SULFURIC ACID SOLUTION AFTER THERMOCHEMICAL ENRICHMENT OF ROUGH CONCENTRATE

Electrocatalytic reduction of quinoline and its oxy derivatives

Xiantao Ma | Chemistry and Materials Science | Excellence in Research Award

Published on 02/04/202502/04/2025 by Research Hypothesis

Xiantao Ma | Chemistry and Materials Science | Excellence in Research Award

Prof Xiantao Ma, Xinyang Normal University, China

Prof. Xiantao Ma is a distinguished chemist specializing in green organic synthesis and biomass chemistry. 🎯 He earned his Ph.D. from the University of Science and Technology of China 🎓 and has since made significant contributions to sustainable chemistry. His work spans metal-free catalysis, transition-metal coupling reactions, and the green conversion of biomass resources. 🌱 As an Associate Professor at Xinyang Normal University, he has led multiple national and provincial research projects, securing substantial funding 💰. His publications in top-tier journals like Green Chemistry, J. Org. Chem., and Org. Chem. Front. showcase his innovative methodologies in organic transformations. 🧪 His outstanding research has positioned him as a leader in sustainable chemistry, making him a strong candidate for the Excellence in Research Award. 🏅

Publication Profile

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Education

Prof. Xiantao Ma embarked on his academic journey with a Bachelor’s degree in Chemistry from Henan Normal University (2005-2009) 🎓, where he built a strong foundation in chemical sciences. He then pursued his Ph.D. in Chemistry and Materials Science at the University of Science and Technology of China (2009-2014) 🏛️, delving into advanced research in organic synthesis and catalysis. 🧪 His doctoral studies paved the way for groundbreaking contributions to green chemistry 🌿, focusing on the development of sustainable catalytic methodologies that enhance efficiency while minimizing environmental impact. 🌍💡 Through innovative approaches in catalysis, Prof. Ma has played a crucial role in advancing eco-friendly chemical processes, aiming for a more sustainable future. 🔬 His dedication to research and scientific discovery continues to drive progress in modern chemistry, making significant contributions to both academia and industry. 📚⚗️

Experience

Prof. Xiantao Ma is a distinguished researcher with a dynamic career spanning academia, industry, and international collaborations. 🔬🛢️ He began his journey as a Research & Development Engineer at the Dalian Lubricant Research Center (National Petroleum Corporation) in 2014, contributing to advancements in petroleum-based lubricants. 🚀 From 2015 to 2017, he worked as a Postdoctoral Fellow at the International Joint Laboratory on Two-Dimensional Materials, a collaborative effort between Shenzhen University and the National University of Singapore, where he explored cutting-edge nanomaterials. 🌍⚛️ In 2017, he transitioned into academia as a Lecturer at Xinyang Normal University’s School of Chemistry and Chemical Engineering. 👨‍🏫 His dedication and expertise led to his promotion to Associate Professor in December 2019, where he continues to drive innovation and mentor future scientists. 🎓✨ With a strong background in research, teaching, and industry applications, Prof. Ma’s contributions significantly impact the field of chemistry and materials science. 🔥🔗

Awards & Honors

Prof. Xiantao Ma is a distinguished researcher in organic and green chemistry 🌱, recognized for his outstanding contributions to the field. As the Principal Investigator of the National Natural Science Foundation of China Project (2022-2024) 💰 and the Henan Province Science and Technology Attack Project (2019-2021) 🔬, he has led groundbreaking research initiatives. His excellence was further acknowledged with the China Postdoctoral Science Foundation Award (2016-2017) 🥇. Prof. Ma’s research is widely published in top-tier chemistry journals, including Green Chemistry, J. Org. Chem., Eur. J. Org. Chem., and Org. Chem. Front. 📖. His innovative work continues to push the boundaries of sustainable chemistry, contributing to environmentally friendly solutions. With a strong reputation built on high-impact publications and scientific leadership, he remains a key figure in advancing modern organic synthesis and green chemistry principles. 🌍🔬

Research Focus

Prof. Xiantao Ma is at the forefront of Green Organic Synthesis 🌿, developing sustainable and eco-friendly catalytic methods to revolutionize chemical processes. His expertise in Biomass Chemistry 🌱 focuses on converting renewable biomass resources into valuable chemicals, reducing dependency on fossil fuels. He is also advancing Metal-Free & Transition-Metal Catalysis ⚗️, designing efficient substitution reactions that eliminate the need for expensive or toxic metals. His work in Aqueous-Phase Organic Transformations 💧 promotes sustainability by conducting key organic reactions in water, minimizing environmental impact. Additionally, he explores Sulfur & Phosphorus Chemistry 🏭, unlocking innovative applications in organic synthesis. Through his pioneering research, Prof. Ma is driving the development of greener methodologies that enhance efficiency and environmental responsibility in the chemical industry. His contributions are shaping a more sustainable future for organic chemistry, making significant strides toward eco-friendly innovations. 🌍💡.

Publication Top Notes

📘 Metal-free Catalytic Nucleophilic Substitution of Primary Alcohols with Secondary Phosphine Oxides – Green Chemistry, 2024
📘 Pd-Catalyzed Aerobic Synthesis of Allylic Sulfones in Water – J. Org. Chem., 2024
📘 The Visual Preparation of n‑Bromobutane – J. Chem. Educ., 2024
📘 Synthesis of 2-Substituted-4,5-Dihydrothiazol-4-Ols via [3 + 2] Annulation – Asian J. Org. Chem., 2024
📘 Synthesis of Hydroxy-Thiazoline Substituted Pyridine Derivatives – Org. Biomol. Chem., 2024
📘 Pd-Catalyzed Dehydrative Synthesis of Allylic Amines in Water – Asian J. Org. Chem., 2023
📘 Transition-Metal-Catalyzed Direct Substitution of Alcohols in Aqueous Media – Eur. J. Org. Chem., 2023
📘 Water Oxidation by Brønsted Acid-Catalyzed in situ Generated Thiol Cation – Org. Chem. Front., 2022

Tong Li | Nanotechnology | Best Researcher Award

Published on 22/01/202522/01/2025 by Research Hypothesis

Tong Li | Nanotechnology | Best Researcher Award

Dr Tong Li, Chongqing University of Technology, China

Dr. Tong Li 🌟 is a researcher specializing in terahertz metamaterials, micro-nano manufacturing, and photoelectric detection. 🎓 He earned his bachelor’s degree from Chongqing University (2013-2017), master’s from Northwest Agriculture and Forestry University (2017-2019), and doctorate from Harbin Institute of Technology (2019-2023). 📚 Currently, he works at Chongqing University of Technology. His groundbreaking studies include broadband terahertz absorbers, multiband amplitude modulators, and high-Q bandstop filters. 🛰️ Notable publications in journals like ACS Applied Electronic Materials and Advanced Materials Interfaces highlight his expertise in terahertz technologies. 🚀 Dr. Tong Li continues to innovate in advancing optical and quantum electronics. 💡📖

Publication Profile

Orcid

Education

Dr. Tong Li 🎓 began their academic journey at Chongqing University (2013-2017), earning a bachelor’s degree 🏫. They advanced to pursue a master’s degree 📚 at Northwest Agriculture and Forestry University (2017-2019), focusing on deepening their expertise. From 2019 to 2023, Dr. Li completed a doctorate 🎓✨ at the prestigious Harbin Institute of Technology, showcasing exceptional dedication to research and innovation. Currently, they are contributing their knowledge and skills as a faculty member 🧑‍🏫 at Chongqing University of Technology (since December 2024), where they continue to inspire and shape future generations. 🌟

Research field

Dr. Tong Li is a leading researcher specializing in terahertz metamaterials, micro-nano manufacturing, and photoelectric detection. 📡🔬✨ With a focus on cutting-edge technologies, Dr. Li’s work bridges the gap between advanced materials and innovative applications in the fields of electronics and optics. Their expertise in designing and fabricating micro-nano structures has contributed significantly to advancements in terahertz technologies, enhancing detection and imaging systems. 🔍⚡ As a dedicated academic and scientist, Dr. Li continues to push the boundaries of photonics and nanotechnology, fostering innovation and shaping the future of high-frequency material science. 🚀📚

Current Position and Work

Dr. Tong Li serves at Chongqing University of Technology, where he contributes significantly to academia and industry applications. With a strong focus on innovation and research, Dr. Li is actively engaged in groundbreaking projects aimed at advancing technological and academic progress. His dedication reflects a commitment to bridging the gap between theoretical knowledge and practical solutions, fostering impactful collaborations. Through his ongoing efforts, Dr. Li strives to inspire the next generation of scholars while contributing to transformative advancements in his field. 🌟📚🔬✨💡

Research Focus

Dr. Tong Li’s research focuses on terahertz photonics and optical engineering, specifically designing innovative structures for advanced applications. 📡🔬 His work includes microtopography-guided 3D spiral and double-layer cross structures, enabling narrowband terahertz filters and multiband amplitude modulators, vital for communication and sensing technologies. 📶✨ Additionally, he has explored AI-driven methods for tracking animal behavior, such as monitoring cows’ ruminant activity using optical flow and inter-frame difference techniques, contributing to precision agriculture. 🐄📈 His interdisciplinary expertise bridges cutting-edge photonics and practical applications, advancing technologies in both engineering and agricultural monitoring. 🚀🌱

Publication Top Notes

Microtopography-guided 3D spiral structure for narrowband terahertz filter working in a wide frequency range

Microtopography‐Guided Double‐Layer Cross Structure for a Terahertz Multiband Amplitude Modulator

Tracking Multiple Target Cows’ Ruminant Mouth Areas Using Optical Flow and Inter-Frame Difference Methods

Masoud Besati | Nanotechnology | Excellence in Innovation Award

Published on 23/07/202423/07/2024 by Research Hypothesis

Masoud Besati | Nanotechnology | Excellence in Innovation Award

Mr Masoud Besati, Shahid Beheshti University of Tehran, Iran

Masoud Besati is a PhD candidate in Medicinal Chemistry at Shahid Beheshti University, Tehran, Iran (2019-2024) 🎓, specializing in plant virus genomics, CRISPR, and gene ontology 🌿🔬. He earned his MSc in Phytochemistry from the University of Kashan (2014-2016) with a focus on natural compound analysis 🧪. With extensive research and development experience at NanoAlvand Pharmaceutical Company and Rabee Company 🏢, he excels in formulation, quality control, and essential oil extraction. Skilled in advanced techniques like HPLC, GC-MS, and bioinformatics tools 🧬, he has published on antiviral nanoemulsions and anthelmintic activities 📚.

Publication profile

google scholar

Education

🔬 From 2023 to 2024, worked as a researcher intern in Biotechnology at CSIC-University of Valencia, focusing on genomics, CRISPR, and gene ontology of plant viruses. 🌱 Pursuing a Ph.D. in Medicinal Chemistry at Shahid Beheshti University, Tehran, Iran (2019-2024), with a GPA of 18.05 and a major GPA of 20 (3.61/4), ranked 1st in graduation class. Thesis: “The effects of new formulations such as nanoemulsions, liposomes, and niosomes on plant viruses.” 🌿 Earned an M.Sc. in Phytochemistry from the University of Kashan (2014-2016), with a GPA of 17.86. 🎓 Completed a B.Sc. in Chemistry from Ilam University (2009-2014).

Experience

From 2020 to 2022, He served as a Research and Development Expert at Nanoalvand Pharmaceutical Company (Cinnagen Biotech Corporation) in Tehran, Iran. My responsibilities included formulating generic parenteral medicines, method development, risk assessment, and validation of stability packages 📊💉. Prior to this, from 2017 to 2019, He was the Quality Control Manager at Rabee Company (Iran Golab Group) in Kashan, Iran, managing the QC laboratory and designing new products 🧪🔬. In 2017, I operated industrial essential oil extraction devices at Rabee Company and designed the industrial column extraction of Phenyl Ethyl Alcohol 🏭🌿. In 2016, He supervised the laboratory at the University of Kashan, teaching junior students and conducting essential oil quality control tests 📚🔍.

Research focus

Masoud Besati’s research primarily focuses on the extraction and analysis of bioactive compounds from medicinal plants. His work includes studying the anthelmintic, antioxidant, and antimicrobial properties of plant extracts, as well as optimizing extraction methods using techniques like response surface methodology. Besati has extensively investigated the chemical composition and biological activities of essential oils from various plant species, including Astrodaucus orientalis and Rosa damascena. His studies also extend to the toxicity assessments of plant extracts and their potential therapeutic applications. 🌿🧪🔬