Zarshad Ali | Chemistry | Best Researcher Award

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Zarshad Ali | Chemistry | Best Researcher Award

Dr Zarshad Ali, Hazara University Mansehra, Pakistan

Dr. Zarshad Ali is a strong candidate for the “Best Researcher Award” based on his extensive academic background, research contributions, and professional experience in the field of physical chemistry. Here’s an assessment of his suitability:

Publication profile

Scopus

Career History

Dr. Zarshad Ali currently serves as an Assistant Professor in Chemistry at Hazara University, Mansehra, a position he has held since January 2016. His career in academia began as a Lecturer in Chemistry at the same university in October 2006, where he was responsible for teaching physical chemistry, supervising laboratory sessions, and guiding both graduate and undergraduate students in their research projects. His experience in teaching and mentorship spans over 18 years, highlighting his commitment to education and research development.

Education

Dr. Ali earned his PhD in Physical Chemistry from Hazara University in 2015, following an MPhil from the University of Peshawar (2005) and an MSc from Gomal University (2000). His doctoral research focused on the exploration of functionalized sorbents for heavy metal ion removal, a crucial area in environmental chemistry.

Representative Publications

Dr. Ali has a robust publication record, including notable works such as studies on the micellization of dodecyl benzenesulfonic acid, functionalized nanospheres for cadmium ion sequestration, and the use of tailored silica nanospheres for chromium remediation. His research has been published in prestigious journals like RSC Advances, Microporous and Mesoporous Materials, and Radiochemica Acta, demonstrating the impact and recognition of his work within the scientific community.

Conference Presentations

Dr. Ali has also presented his research at significant national and international conferences, such as the 25th National and 13th International Chemistry Conference in Lahore and the PINSTECH Conference in Islamabad. These presentations highlight his role in disseminating knowledge and contributing to the global scientific dialogue.

Overall Conclusion

Dr. Zarshad Ali’s extensive experience in academia, coupled with his advanced research in physical chemistry and his active role in the scientific community through publications and conference presentations, make him a highly suitable candidate for the “Best Researcher Award.” His work in developing functionalized materials for environmental remediation is particularly noteworthy, contributing to significant advancements in the field.

Research focus

The research focuses of the individual include the synthesis and evaluation of biologically active compounds, particularly for treating diseases like diabetes and Alzheimer’s. Their work involves molecular docking studies, highlighting a strong emphasis on medicinal chemistry and drug discovery 🧬. Additionally, they explore the development of advanced materials, such as composites and nanocomposites, for applications in adsorption and other technologies 🧪. Their expertise spans across pharmaceutical chemistry, materials science, and in silico modeling, making significant contributions to the design of novel therapeutics and functional materials for various biomedical and industrial applications 🌐.

Publication top notes

Synthesis, biological evaluation and molecular docking study of indazole based schiff base analogues as new anti-diabetic inhibitors

Preparation and dye adsorption properties of activated carbon/clay/sodium alginate composite hydrogel membranes

Fabrication, Morphological, and Thermal Investigation of Epoxy-Polyamide Nanocomposites Reinforced with Carbon Nanotubes

Synthesis, Characterization, and Adsorptive Characteristics of Radiation-Grafted Glycidyl Methacrylate Bamboo Fiber Composites

Involvement of the Opioidergic Mechanism in the Analgesic Potential of a Novel Indazolone Derivative: Efficacy in the Management of Pain, Neuropathy, and Inflammation Using In Vivo and In Silico Approaches

Hydrophobic ammonium based ionic liquids for efficient extraction of textile dyes from aqueous media: Extraction study and antibacterial evaluation

 

 

Thirumavalavan Munusamy | Inorganic Chemistry Award | Best Researcher Award

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Dr. Thirumavalavan Munusamy | Inorganic Chemistry Award | Best Researcher Award

Dr. Thirumavalavan Munusamy, Saveetha Engineering College, India

Dr. Thirumavalavan Munusamy is a distinguished chemist with over two decades of international experience in inorganic chemistry, nanotechnology, and environmental science. Holding a Ph.D. from the University of Madras, India, his expertise encompasses the synthesis and characterization of complex compounds, as well as extensive research in nanomaterials and environmental applications. Notable for his contributions, he has received numerous awards and grants, published in prestigious journals, and served as an editorial board member for several esteemed publications. As a dedicated educator, he has guided numerous students and contributed significantly to the academic community. 🧪📚

Publication Profile

Scopus

Orcid

Google Scholar

🎓 Academic Journey

Dr. M. Thirumavalavan embarked on his academic voyage with a Bachelor’s degree in Chemistry from Loyola College, Chennai, followed by a Master’s from C.A.H. College, Melvisharam. He attained his Ph.D. in Inorganic Chemistry from the University of Madras, delving into the synthesis and characterization of novel macrobicyclic tricompartmental ligands and their metal complexes.

🏆 Awards and Recognitions

Dr. Thirumavalavan’s contributions have been acknowledged globally, from being recognized in “Who’s Who in the World” to receiving prestigious fellowships such as NSC, Taiwan, and FCT, Portugal. He’s served as an editorial board member for esteemed journals like Nanomedicine and Nanotechnology Journal and has been lauded by the International Biographical Centre, Cambridge.

👨‍🏫 Teaching

Alongside his research pursuits, Dr. Thirumavalavan has been a mentor and educator, guiding numerous master’s and doctoral students. He’s adept at handling classes in nano-biotechnology, environmental sciences, and chemistry for biomedical engineering.

🔬 Research Focus

Dr. M. Thirumavalavan’s research primarily centers around the synthesis and application of nanomaterials for environmental remediation and catalytic processes. He specializes in the development of cellulose-based adsorbents, chitosan/ZnO nanocomposites, and mesoporous silica materials for heavy metal ion adsorption and photocatalytic degradation. His work extends to exploring the structural and functional properties of these materials, aiming to address challenges in water pollution and environmental sustainability. With a keen interest in innovative solutions, he continually explores novel approaches to tackle pressing environmental concerns through advanced materials science.

Publication Top Notes

Ranga Subramanian | Physical Chemistry | Best Paper Award

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Dr. Ranga Subramanian | Physical Chemistry | Best Paper Award 

Associate Professor, IIT Patna, India

Dr. Ranga Subramanian, an Associate Professor at IIT Patna, India, has been recognized for his outstanding contributions in Physical Chemistry with a prestigious Best Paper Award. His groundbreaking research has not only expanded the boundaries of knowledge but has also significantly impacted the field. With a keen focus on exploring complex chemical phenomena at the molecular level, Dr. Subramanian’s work epitomizes excellence and innovation. His dedication to advancing scientific understanding and his commitment to academic excellence serve as an inspiration to both his peers and students. Through his contributions, he continues to shape the future of Physical Chemistry and pave the way for groundbreaking discoveries.

Profile

Scupus

Academic Qualification

Dr. Ranga Subramanian pursued his academic journey with zeal and dedication, earning his Bachelor’s degree from Loyola College, Chennai, laying the foundation for his scholarly pursuits. He further honed his expertise by completing his Masters at the prestigious Indian Institute of Technology, Chennai, delving deeper into his field. Driven by a thirst for knowledge, he pursued his Ph.D. at Wesleyan University in Middletown, CT – 06457, where he immersed himself in advanced research and academic inquiry. 🎓 His educational trajectory reflects a commitment to excellence and a passion for learning, shaping him into the accomplished scholar and educator he is today.

Work Experience

Dr. Ranga Subramanian’s academic journey is characterized by a diverse range of experiences and esteemed positions. Beginning as a Visiting Assistant Professor at New College of Florida, USA, he embarked on his career trajectory, laying the groundwork for his scholarly endeavors. His pursuit of excellence led him to serve as an Assistant Professor at the Indian Institute of Technology Patna, where he made significant contributions to academia and research. Building upon his expertise, he further enriched his scholarly portfolio as a Post-Doctoral Fellow at Tulane University, New Orleans, LA, and later at the University of Arizona, Tucson, AZ. Through his multifaceted roles and unwavering dedication, Dr. Subramanian continues to inspire and shape the academic landscape with his invaluable contributions.

Selected Conference Presentations

Dr. Ranga Subramanian’s prolific contributions to theoretical chemistry and atmospheric science are underscored by his notable presentations and talks at prestigious conferences and symposiums worldwide. With invited talks at esteemed events such as the 19th Theoretical Chemistry Symposium (TCS 2023) and the 4th Indian Planetary Science Conference (IPSC-2023), he has delved into crucial topics like environmental assessment properties of oxygenated hydrofluorocarbons and thermodynamic properties of water clusters. His expertise extends to computational chemistry applications in atmospheric science, as evidenced by his engagement at the Centre for Advanced Computational Chemistry Studies, New Delhi. Dr. Subramanian’s groundbreaking research elucidates mechanisms, kinetics, and theoretical analyses vital to understanding atmospheric chemistry, earning him recognition and respect in academic circles globally.

Publications Top Notes

 

  1. “Theoretical investigation of the nature of hydrogen bonds and cooperativity effect in methanol-water and ethanol-water clusters” – 2024 – Arnab Patla, Jagannath Pal, Kanika Guleria, and Ranga Subramanian
  2. “Theoretical Investigation on Hydrogen Abstraction Reactions of Sulfur Compounds HSX(O)H and CH3SX(O)H (X = C, S) by OH Radicals” – 2023 – Kanika Guleria and Ranga Subramanian
  3. “Thermodynamic and Optical Properties of HCOOH(H2O)n and HCOOH(NH3)(H2O)n-1 Clusters at Various Temperatures and Pressures: A Computational Study” – 2023 – Arnab Patla and Ranga Subramanian
  4. “Chemically induced crosslinked enhanced emission of carbon polymer dots discerning healthy and cancer cells through pH-dependent tunable photoluminescence” – 2023 – Suman Nayak, Kanika Guleria, Abhik Sen, Subhrajeet Banerjee, Ranga Subramanian, and Prolay Das
  5. “Computational investigation on mechanisms and kinetics of gas-phase reactions of 4-hydroxy-2-pentanone (4H2P) with hydroxyl radicals and subsequent reactions of CH3C(O)CH2C•(OH)CH3 radical” – 2022 – Kanika Guleria and Ranga Subramanian
  6. “Absorption of Volatile Organic Compounds Toluene and Acetaldehyde in Choline Chloride-Based Deep Eutectic Solvents” – 2022 – Sandipa Indra, Ranga Subramanian, and Snehasis Daschakraborty
  7. “Quantum Chemical and Chemical Kinetic Investigation on Hydrogen Abstraction Reactions of CF3CF2C(O)OCH3 and CHF2CF2C(O)OCH3 with OH Radicals and Fate of Haloalkoxy Radicals” – 2022 – Kanika Guleria and Ranga Subramanian
  8. “Interaction of volatile organic compounds acetone and toluene with room temperature ionic liquid at the bulk and the liquid-vacuum interface” – 2021 – Sandipa Indra, Ranga Subramanian, and Snehasis Daschakraborty
  9. “Thermodynamic properties of Forming Methanol-Water and Ethanol-Water Clusters at Various Temperatures and Pressures and Implications for Atmospheric Chemistry: A DFT Study” – 2021 – Jagannath Pal, Arnab Patla, and Ranga Subramanian
  10. “Sodium and Lithium ions in aerosol: thermodynamic and rayleigh light scattering properties” – 2020 – Jagannath Pal, Pulagam Sai Teja, and Ranga Subramanian
  11. “The Gas Phase Structure of Ethynylferrocene using Microwave Spectroscopy” – 2005 – Ranga Subramanian, Chandana Karunatilaka, Kristen S. Keck, Stephen G. Kukolich
  12. “2-BUTYNOL: Torsional analysis of a molecule” – 2003 – Ranga Subramanian, Robert K. Bohn, and Stewart E. Novick
  13. “FT Microwave Structure and Nuclear Quadrupole Coupling Analysis of Six Isotopomers of the ArgonChlorocylcobutane van der Waals complex” – 2005 – Ranga Subramanian, J.M.Szarko, Stewart Szarko, Stewart W.C.Pringle

 

 

 

Tairan Yuwen | Chemistry | Best Researcher Award

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Mr. Tairan Yuwen | Chemistry | Best Researcher Award

Mr. Tairan Yuwen, Peking University, China

🔬 Tairan Yuwen is an analytical chemist and biochemist specializing in protein systems with structural disorder. With a Ph.D. from Purdue University and a B.Sc. from Peking University, their research spans from understanding molecular interactions to developing new NMR methodologies. Currently an Assistant Professor at Peking University, they’ve held postdoctoral positions at the University of Toronto and Purdue University. Yuwen’s contributions include innovative NMR techniques showcased in conferences worldwide. Recognized with honors like the CIHR Fellowship, they continue to advance understanding in biomolecular dynamics and drug discovery. 🌱

Publication profile:

Orcid

Education:

🔬 Tairan Yuwen’s academic journey in the sciences began with a Bachelor of Science degree in Biological Sciences from Peking University, China, where they delved into the intricacies of molecular interactions under the guidance of Professor Luhua Lai. Their undergraduate thesis focused on unraveling the mechanism behind the interaction between Mj HSP 16.5 and amyloid fibrils, contributing to the understanding of protein dynamics.Building on this foundation, Yuwen pursued a Ph.D. in Chemistry at Purdue University in the United States, specializing in Analytical Chemistry and Biochemistry under the mentorship of Professor Nikolai Skrynnikov. Their doctoral research culminated in the development of novel experimental and theoretical tools tailored for studying protein systems characterized by structural disorder. This work represented a significant advancement in the field, shedding light on the complexities of biomolecular structures.Throughout their academic journey, Yuwen’s dedication to unraveling the mysteries of molecular biology has been underscored by a passion for discovery and innovation. Their contributions to both theoretical understanding and experimental techniques exemplify their commitment to pushing the boundaries of scientific knowledge. 🧪

Work Experience:

🔬 Tairan Yuwen’s professional journey spans prestigious academic institutions and cutting-edge research projects. They began as a Postdoctoral Research Fellow at Purdue University, where they worked under the guidance of Prof. Nikolai Skrynnikov, focusing on developing advanced NMR methodologies for probing protein structure and dynamics. Subsequently, at the University of Toronto under Prof. Lewis E. Kay, they continued their exploration of NMR techniques, this time concentrating on large biomolecular systems. Currently, Yuwen serves as an Assistant Professor at Peking University’s School of Pharmaceutical Sciences, where they continue to contribute to the advancement of scientific knowledge and mentor the next generation of researchers. 🌱

Teaching:

🎓 From 2010 to 2014, Tairan Yuwen enriched their academic experience at Purdue University, serving as a Teaching Assistant in the Department of Chemistry. They played a pivotal role within the Purdue Interdepartmental NMR Facility (PINMRF), where they assisted students in mastering the intricacies of nuclear magnetic resonance (NMR) techniques. As a mentor, Yuwen not only facilitated practical learning but also fostered a deeper understanding of analytical chemistry concepts. Their dedication to education, coupled with expertise in NMR methodologies, provided students with invaluable insights and skills essential for their scientific pursuits. Yuwen’s commitment to teaching shines brightly amidst their academic endeavors. 📚

 

Honors and Awards:

🏆 Tairan Yuwen’s exceptional contributions to scientific research were recognized with the prestigious Canadian Institutes of Health Research (CIHR) Fellowship from 2017 to 2020. This esteemed award provided funding for their project focusing on the solution state NMR study of Dot1–nucleosome interactions. Through this fellowship, Yuwen was able to delve deeper into understanding the complex dynamics of molecular interactions within chromatin, shedding light on crucial aspects of gene regulation and epigenetics. Their dedication to advancing knowledge in this field was underscored by this esteemed honor, showcasing Yuwen’s commitment to excellence in scientific inquiry. 🧬

Employment:

🔬 Tairan Yuwen’s professional journey reflects a commitment to academic excellence and scientific inquiry. Starting as a Teaching Assistant at Purdue University’s Interdepartmental NMR Facility (PINMRF), they honed their skills in chemistry education from 2010 to 2014. Subsequently, they embarked on postdoctoral research positions at Purdue University and later at the University of Toronto, delving into biochemistry and advancing NMR methodologies. Presently, Yuwen serves as an Assistant Professor at Peking University’s School of Pharmaceutical Sciences, where they continue to inspire students and contribute to cutting-edge research in pharmaceutical sciences. Their diverse experiences underscore their passion for education and research in the scientific community. 🎓

Research Focus :

🔬 Tairan Yuwen’s research focus lies at the intersection of nuclear magnetic resonance (NMR) spectroscopy and protein dynamics. Their work spans various aspects of NMR methodology development and its application to elucidate molecular interactions and conformational dynamics in biological systems. They have made significant contributions to optimizing relaxation dispersion experiments, exploring chemical exchange processes, and probing conformational dynamics in proteins. Yuwen’s expertise in NMR techniques has paved the way for a deeper understanding of biomolecular structures and interactions, ultimately advancing research in fields such as structural biology and drug discovery. Their dedication to unraveling the mysteries of molecular dynamics is evident in their prolific contributions to scientific literature. 🧪

Publication Top Notes:

Optimization of TROSY- and anti-TROSY-based 15N CPMG relaxation dispersion experiments through phase cycling

Measurement of 1Hα transverse relaxation rates in proteins: application to solvent PREs

Chemical shift prediction of RNA imino groups: application toward characterizing RNA excited states

Understanding and solving abnormal peak splitting in 3D HCCH-TOCSY and HCC(CO)NH-TOCSY

Revisiting 1HN CPMG relaxation dispersion experiments: a simple modification can eliminate large artifacts

A Methyl‐TROSY‐Based 1H Relaxation Dispersion Experiment for Studies of Conformational Exchange in High Molecular Weight Proteins

Measuring Diffusion Constants of Invisible Protein Conformers by Triple‐Quantum 1H CPMG Relaxation Dispersion

Measuring Solvent Hydrogen Exchange Rates by Multifrequency Excitation 15N CEST: Application to Protein Phase Separation

A methyl 1H double quantum CPMG experiment to study protein conformational exchange

Exploring methods to expedite the recording of CEST datasets using selective pulse excitation

Hamideh Hosseini | Chemistry | Best Researcher Award

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Dr. Hamideh Hosseini | Chemistry | Best Researcher Award

Dr. Hamideh Hosseini, Chemistry and Chemical Engineering Research Center of Iran (CCERCI), Iran

👩‍🔬 Dr. Hamideh Hosseini is an accomplished chemist specializing in organic chemistry, with expertise in plasma-induced reactions. She earned her Doctoral degree from CCERCI, Iran, focusing on synthesizing organic compounds from toluene using DBD Plasma. Dr. Hosseini has a Master’s degree in Organic Chemistry and a Bachelor’s degree in Pure Chemistry. Currently a researcher at CCERCI, she contributes to projects led by Prof. Mohammad Ghaffarzadeh. Dr. Hosseini has received numerous honors, including the highest distinction for her doctoral thesis. With industrial and academic experiences, she’s a versatile professional bridging research and industry seamlessly.

Publication Profile:

Scopus

Education:

📚 Dr. Hamideh Hosseini embarked on her academic journey with a Bachelor’s degree in Pure Chemistry from Imam Khomeini International University. She continued her pursuit of knowledge, earning a Master’s degree in Organic Chemistry from Kharazmi University, where her focus was on the synthesis of macrocyclic compounds. Dr. Hosseini’s passion for organic chemistry led her to obtain a Doctoral degree in Organic Chemistry from the Chemistry and Chemical Engineering Research Center of Iran (CCERCI), specializing in plasma-induced reactions. Her doctoral thesis explored the synthesis of organic compounds from toluene using DBD Plasma, showcasing her dedication to innovative research in the field. 🎓

Research experiences:

🔬 Since September 2022, Dr. Hamideh Hosseini has been actively engaged as a researcher at the Chemistry and Chemical Engineering Research Center of Iran (CCERCI), collaborating within the esteemed team led by Prof. Mohammad Ghaffarzadeh. Her current project focuses on the synthesis of organic compounds using innovative methodologies. With her expertise in organic chemistry and a keen interest in novel methods, Dr. Hosseini contributes significantly to advancing research in the field. Her dedication to exploring new avenues for organic synthesis underscores her commitment to pushing the boundaries of scientific discovery. 🌱

 

Honors and awards:

🏅 Dr. Hamideh Hosseini’s academic excellence has been duly recognized through various honors and awards. In 2022, her doctoral thesis earned the highest distinction, receiving the prestigious “The grade of excellent” accolade from CCERCI. In 2019, she was awarded the Iran Ministry of Science and Research Scholarship for Research Abroad, reflecting her commitment to scholarly pursuits. Dr. Hosseini’s academic prowess was evident earlier as well, as she secured the 4th position in the Ph.D. Nationwide Entrance Exam among participants in Iran in 2016, showcasing her exceptional intellectual abilities and dedication to academic achievement. 🎓🌟

 

Industrial experiences:

💼 Dr. Hamideh Hosseini has enriched her professional repertoire with diverse industrial experiences. From October 2016 to March 2017, she served as a Chemistry expert at Alpha Chemical Company in Tehran, Iran. Prior to this, from January 2010 to October 2010, she contributed her expertise at Alborz Chemical Company, also in Tehran. Her journey in the industry commenced earlier, as she held a position as a Chemistry expert at Alhawi Pharmaceutical Company from September 2009 to December 2009. These roles provided valuable insights into practical applications of chemistry, enhancing Dr. Hosseini’s skill set and understanding of industrial processes. 🧪🔬

Research Focus :

Dr. Hamideh Hosseini’s research focus spans the innovative realm of plasma-induced reactions, particularly in the synthesis of organic compounds. Through meticulous investigations detailed in various articles and reviews, she explores the diverse applications of plasma catalysis and discharge in organic chemistry. Her work delves into topics such as the synthesis of ammonia, surface functionalization of carbon nanotubes, and the formation of nitrogen-containing organic products. Dr. Hosseini’s contributions shed light on the potential of plasma technology as an alternative and efficient approach in organic synthesis, paving the way for groundbreaking advancements in the field. 🧪⚡🔬

Publication Top Notes :

Dielectric barrier discharge plasma catalysis as an alternative approach for the synthesis of ammonia: a review

Investigation of Plasma Induced Reactions of Liquid Toluene in Ar/NH3: The Formation of Organic Compounds through Radical Intermediates

Surface functionalization of carbon nanotubes via plasma discharge: A review

Nitrogen-containing organic products from the treatment of liquid toluene with plasma-activated N2 gas

 

 

 

 

 

Md. Mahbubu Rahman | Chemistry | Best Researcher Award

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Assoc Prof Dr. Md. Mahbubu Rahman : Chemistry | Best Researcher Award

Ph.D at Konkuk University, South Korea

Assoc Prof Dr. Md. Mahbubu Rahman is an accomplished academic specializing in Electroanalytical Chemistry and Photoelectrochemistry. He earned his Ph.D. from Konkuk University, South Korea, focusing on the electrochemical studies of nanomaterials for solar energy conversion and biosensors. 🌞 With an M.S. in Inorganic and Analytical Chemistry from the University of Dhaka, Bangladesh, his research explored the interaction of Glipizide with various metal ions. 🧪 Currently an Associate Professor at Konkuk University, he also serves as Adjunct Faculty at Dongguk University. Dr. Rahman’s expertise lies at the intersection of chemistry and renewable energy. ⚡🔬

Publication Profile :

Scopus 

Orcid

Google Scholar

Education :

Dr. Md. Mahbubu Rahman is a distinguished academic with a robust educational background. He completed his Ph.D. in Electroanalytical Chemistry and Photoelectrochemistry at Konkuk University, Seoul, South Korea, delving into “Electrochemical Studies of Nanomaterials for Solar Energy Conversion and Biosensors,” under the guidance of Prof. Jae-Joon Lee. 🌞 Earlier, he earned his M.S. in Inorganic and Analytical Chemistry from the University of Dhaka, Bangladesh, focusing on the interaction of Glipizide with various metal ions. 🧪 Dr. Rahman initiated his academic journey with a B.Sc. in Chemistry from the University of Dhaka, conducting impactful research on arsenic in cropland soil and groundwater. 🌱🎓

Work Experience :

Dr. Md. Mahbubu Rahman boasts an extensive and diverse academic career, currently serving as an Associate Professor in the Department of Applied Chemistry at Konkuk University, Chungju, South Korea. 🎓 He has also contributed significantly to Dongguk University as an Adjunct Faculty in the Department of Energy & Materials Engineering. Previously, he held positions as Assistant Professor in both Applied Chemistry and Energy and Materials departments at Konkuk University. 🌐 Dr. Rahman’s expertise extends to nanochemistry and photoelectrochemistry, evident from his roles as a Visiting Professor at Dongguk University and a Post-Doctoral Scholar at Incheon National University. 🧪 Throughout his journey, he actively engaged in teaching, research, and collaborative efforts within the realm of chemistry and materials science.

Awards :

Dr. Md. Mahbubu Rahman has garnered recognition and accolades for his outstanding contributions in academia. 🏆 During his Ph.D. journey at Konkuk University, Seoul, he received the University Scholarship, showcasing his academic excellence. His commitment to research was further acknowledged with the Best Poster Award from the Korean Chemical Society’s Electrochemistry Division in 2011 and the Global Photovoltaic Conference in the same year. 📊 Additionally, he earned the prestigious Best Paper Award from the Journal of Electrochemical Science and Technology in 2013. Dr. Rahman’s scholarly pursuits were also supported through a Travel Grant Award for the 27th International Conference on Photochemistry in Jeju Island, South Korea. 🌏🔬

Research Focus :

Dr. Md. Mahbubu Rahman is a prolific researcher with a focus on electroanalytical chemistry and photoelectrochemistry. 🧪 His work spans diverse areas, including the development of glucose biosensors based on nanostructured metal-oxides, enzyme-free glucose sensors, and electrochemical DNA hybridization sensors. 🌐 Dr. Rahman’s expertise extends to the design of metal-organic frameworks for non-enzymatic detection and the exploration of conductive polymer electrolytes for solid-state lithium batteries. ⚡ His contributions also include advancements in biosensors for cardiac biomarkers and the synthesis of nanostructured electrode materials. 🏅 With a strong emphasis on materials science, his research significantly impacts sensor technology and renewable energy applications.

Publication Top Notes :

  1. A comprehensive review of glucose biosensors based on nanostructured metal-oxides
    • Published in Sensors 2010, Cited by 832 📊
  2. Recent advances of electrochemical and optical enzyme-free glucose sensors operating at physiological conditions
    • Published in Biosensors and Bioelectronics 2020, Cited by 206 📊
  3. Highly sensitive and simultaneous determination of hydroquinone and catechol at poly (thionine) modified glassy carbon electrode
    • Published in Electrochimica Acta 2011, Cited by 201 📊
  4. A base-stable metal-organic framework for sensitive and non-enzymatic electrochemical detection of hydrogen peroxide
    • Published in Electrochimica Acta 2018, Cited by 99 📊
  5. Electrochemical DNA hybridization sensors based on conducting polymers
    • Published in Sensors 2015, Cited by 93 📊
  6. A cholesterol biosensor based on a bi-enzyme immobilized on conducting poly (thionine) film
    • Published in Sensors and Actuators B: Chemical 2014, Cited by 92 📊
  7. Label-free aptasensor for the detection of cardiac biomarker myoglobin based on gold nanoparticles decorated boron nitride nanosheets
    • Published in Biosensors and Bioelectronics 2019, Cited by 83 📊
  8. Highly sensitive and simultaneous detection of dopamine and uric acid at graphene nanoplatelet-modified fluorine-doped tin oxide electrode in the presence of ascorbic acid
    • Published in Journal of Electroanalytical Chemistry 2017, Cited by 70 📊
  9. A Ni-based redox-active metal-organic framework for sensitive and non-enzymatic detection of glucose
    • Published in Journal of Electroanalytical Chemistry 2018, Cited by 68 📊
  10. Simple, low-cost, sensitive and label-free aptasensor for the detection of cardiac troponin I based on a gold nanoparticles modified titanium foil
  •  Published in Biosensors and Bioelectronics 2019, Cited by 67 📊