Munusamy Settu | Analytical Chemistry | Best Researcher Award

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Dr. Munusamy Settu | Analytical Chemistry | Best Researcher Award

Chennai institute of technology, India.

Dr. S. Munusamy is a distinguished researcher and educator in the field of inorganic chemistry and nanomaterials. his academic journey began with a strong foundation in chemistry, leading to a Ph. d. from the university of madras, where he specialized in electrocatalytic and photocatalytic studies of metal nitrides and conducting co-polymer hybrid nanocomposites. his professional career spans roles as an assistant researcher, head of the department, and currently as a research faculty member at the Centre for applied nanomaterials, Chennai institute of technology. his work focuses on nanomaterials, electrocatalysis, hydrogen evolution reactions (her), oxygen evolution reactions (oer), photocatalysis, supercapacitors, and antibiotic research.

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Early academic pursuits 🎓

His journey into the world of chemistry began with a strong foundation in the subject during his undergraduate studies at Thiruvalluvar university. with a keen interest in exploring the principles of chemistry, he pursued his M. Sc. in chemistry at the prestigious university of madras, where he gained expertise in analytical, inorganic, organic, and physical chemistry. his academic brilliance and dedication to scientific exploration led him to further his research aspirations through a Ph. d. in inorganic chemistry (material science) at the university of madras. his doctoral research focused on electrocatalytic and photocatalytic studies of metal nitrides and conducting co-polymer hybrid nanocomposites under the guidance of Prof. V. Narayanan.

Professional endeavors 🏛️

following his academic achievements, Dr. Munusamy embarked on a dynamic professional career dedicated to research and education. he served as an assistant researcher and later as the head of the department at shishya arts and science college, thiruvalluvar university. his work in gallium nitride-polyaniline-polypyrrole hybrid nanocomposites showcased his expertise in nanomaterials and their applications in electrochemical sensors. in 2024, he joined the chennai institute of technology as a research faculty member at the centre for applied nanomaterials, where he continues to advance research in cutting-edge material science.

Contributions and research focus 🔬

His research is deeply rooted in the synthesis and application of nanomaterials, including metal nitrides, metal oxides, metal carbides, and conducting polymers. his work spans various critical domains, such as electrocatalysis, hydrogen evolution reactions (her), oxygen evolution reactions (oer), photocatalysis, supercapacitors, and antibiotic research. his innovative approaches to material synthesis and application have led to significant advancements in sustainable energy and environmental chemistry, particularly in developing efficient catalysts for energy storage and conversion.

Accolades and recognition 🏆

throughout his career, Dr. Munusamy has earned recognition for his pioneering research and contributions to the field of nanomaterials. his expertise in developing hybrid nanocomposites has been instrumental in enhancing electrochemical sensing technologies. his scholarly achievements have been acknowledged through academic honors, research publications, and invitations to participate in scientific forums, reflecting his standing in the global scientific community.

Impact and influence 🌍

His research has had a profound impact on both academia and industry. his work on electrocatalysts and photocatalysts has provided valuable insights into alternative energy solutions, contributing to the advancement of sustainable technologies. as a dedicated educator, he has mentored aspiring chemists, inspiring the next generation of scientists to push the boundaries of material science and nanotechnology. his leadership roles in academic institutions have further solidified his influence in shaping scientific curricula and fostering research-driven learning environments.

Legacy and future contributions 🔭

as a committed researcher and educator, Dr. Munusamy continues to explore new frontiers in nanomaterial science. his ongoing work at the chennai institute of technology aims to develop innovative materials with enhanced efficiency for energy storage and environmental applications. his legacy is marked by his relentless pursuit of knowledge and his dedication to scientific excellence. looking ahead, he envisions expanding his research into interdisciplinary collaborations, furthering the impact of nanomaterials in solving global challenges.

Publication

  • Doping of Co into V₂O₅ nanoparticles enhances photodegradation of methylene blue
    Authors: R. Suresh, K. Giribabu, R. Manigandan, S. Munusamy, S.P. Kumar, …
    Year: 2014

 

  • MnWO₄ nanocapsules: synthesis, characterization and its electrochemical sensing property
    Authors: S. Muthamizh, R. Suresh, K. Giribabu, R. Manigandan, S.P. Kumar, …
    Year: 2015

 

  • Nanomolar determination of 4-nitrophenol based on a poly (methylene blue)-modified glassy carbon electrode
    Authors: K. Giribabu, R. Suresh, R. Manigandan, S. Munusamy, S.P. Kumar, …
    Year: 2013

 

  • New electrochemical sensor based on Ni-doped V₂O₅ nanoplates modified glassy carbon electrode for selective determination of dopamine at nanomolar level
    Authors: R. Suresh, K. Giribabu, R. Manigandan, S.P. Kumar, S. Munusamy, …
    Year: 2014

 

  • Synthesis and characterization of cerium oxide nanoparticles using Curvularia lunata and their antibacterial properties
    Authors: S. Munusamy, K. Bhakyaraj, L. Vijayalakshmi, A. Stephen, V. Narayanan
    Year: 2014

 

  • Simultaneous determination of paracetamol and 4-aminophenol based on poly (chromium Schiff base complex) modified electrode at nanomolar levels
    Authors: S.P. Kumar, K. Giribabu, R. Manigandan, S. Munusamy, S. Muthamizh, …
    Year: 2016

 

  • Synthesis and characterization of chromium (III) Schiff base complexes: Antimicrobial activity and its electrocatalytic sensing ability of catechol
    Authors: S.P. Kumar, R. Suresh, K. Giribabu, R. Manigandan, S. Munusamy, …
    Year: 2015

 

  • A voltammetric biosensor based on poly (o-methoxyaniline)-gold nanocomposite modified electrode for the simultaneous determination of dopamine and folic acid
    Authors: D. Sangamithirai, S. Munusamy, V. Narayanan, A. Stephen
    Year: 2018

 

  • Copper vanadate nanoparticles: synthesis, characterization and its electrochemical sensing property
    Authors: V. Sivakumar, R. Suresh, K. Giribabu, R. Manigandan, S. Munusamy, …
    Year: 2014

 

  • Fabrication of neurotransmitter dopamine electrochemical sensor based on poly (o-anisidine)/CNTs nanocomposite
    Authors: D. Sangamithirai, S. Munusamy, V. Narayanan, A. Stephen
    Year: 2016

Marjanur Rahman Bhuiyan | Computational Chemistry | Best Researcher Award

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Mr. Marjanur Rahman Bhuiyan | Computational Chemistry | Best Researcher Award

Incepta Pharmaceuticals Ltd, Bangladesh

👨‍🎓Profiles

🎓 Academic Journey

Mr. Marjanur Rahman Bhuiyan has built a strong academic foundation in pharmacy and biomedical sciences. He completed his Bachelor of Pharmacy (B. Pharm) from Noakhali Science and Technology University, Bangladesh, achieving an impressive CGPA of 3.73/4.00 (Transcript) and 3.86/4.00 (WES Transcript Evaluation). His commitment to continuous learning is evident from his participation in the Fall 2023 Cell Biology Course at Harvard University’s Lakshmi Mittal & Family South Asian Institute. Prior to this, he demonstrated academic excellence from an early stage, securing a GPA of 4.92/5.00 in his Higher Secondary School Certificate (HSC) from Cumilla Government College and a perfect GPA of 5.00/5.00 in his Secondary School Certificate (SSC) from Amratoli C. Ali High School.

🏢 Professional Experience

Mr. Bhuiyan has diverse and hands-on experience in the pharmaceutical and healthcare sectors, focusing on industrial pharmacy, hospital pharmacy, and disaster response management. Currently, he serves as a Scientific Officer in the Production Unit at Incepta Pharmaceuticals Ltd., Zirabo, Savar, Bangladesh. In this role, he is responsible for overseeing pharmaceutical manufacturing processes, ensuring quality assurance, and maintaining regulatory compliance to produce high-quality medicines.

His professional journey includes valuable internship experiences in both industrial and hospital pharmacy. As a Trainee Industrial Pharmacist at Aristopharma Ltd., Shampur Plant, Dhaka, in November 2023, he gained practical knowledge in pharmaceutical manufacturing, formulation development, and quality control while adhering to Good Manufacturing Practices (GMP) and industry regulations. Additionally, his internship as a Trainee Hospital Pharmacist at the 250 Bed General Hospital, Noakhali, from August to October 2023, provided him with firsthand experience in dispensing medications, patient counseling, and prescription verification, further enhancing his understanding of hospital pharmacy operations and clinical pharmacology.

Beyond the pharmaceutical sector, Mr. Bhuiyan has actively contributed to disaster response and humanitarian aid. As an Executive of the Unit Disaster Response Team (UDRT) at the Noakhali Red Crescent Unit from January 2019 to December 2022, he played a vital role in disaster management, emergency response, and public health initiatives. His involvement in relief distribution, first-aid training, and community health awareness programs showcases his commitment to social responsibility.

🔬 Research and Scientific Interests

Passionate about pharmaceutical sciences, drug development, and healthcare innovations, Mr. Bhuiyan's research interests span pharmaceutical production, quality assurance, biopharmaceutical research, clinical pharmacy, and molecular pharmacology. His education at Harvard University (Scienspur Program) has enriched his understanding of cell biology, equipping him with advanced knowledge applicable to drug development and disease treatment.

🌍 Impact and Contributions

Through his work in pharmaceutical production, hospital pharmacy, and humanitarian services, Mr. Bhuiyan has made significant contributions to healthcare standards. His ability to integrate academic knowledge with practical experience ensures the effective implementation of pharmaceutical advancements. His efforts in disaster response and healthcare advocacy further highlight his dedication to public well-being.

🚀 Future Aspirations

Looking ahead, Mr. Bhuiyan aspires to advance pharmaceutical research, develop innovative and safe medications, and contribute to global health initiatives. He plans to pursue higher studies in pharmaceutical sciences or biomedical research, aiming to enhance drug accessibility and affordability. Additionally, he intends to continue his humanitarian efforts by promoting health awareness and disaster preparedness. With his strong academic background, professional expertise, and passion for healthcare innovation, Mr. Bhuiyan is poised to become a leader in the pharmaceutical and healthcare sectors. 🚀

📖Notable Publications

Prediction of angiogenesis suppression by myricetin from Aeginetia indica via inhibiting VEGFR2 signaling pathway using computer-aided analysis
Authors: MR Bhuiyan, KS Ahmed, MS Reza, H Hossain, SMM Siam, S Nayan, ...
Journal: Heliyon
Year: 2025

Mechanisms of Castanopsis tribuloides targeting α-glucosidase for the management of type-2 diabetes: Experimental and computational approaches
Authors: T Hasan, SMM Siam, MR Bhuiyan, E Jahan, N Nahar, MS Sakib, ...
Journal: Process Biochemistry
Year: 2024

Report of In-Plant Training at ARISTOPHARMA LTD.
Authors: MR Bhuiyan
Journal: Noakhali Science and Technology University
Year: 2024

Report of Hospital Training At 250 Bedded General Hospital, Noakhali.
Authors: MR Bhuiyan
Journal: Noakhali Science and Technology University
Year: 2024

 

Jianlong Chai | Analytical Techniques | Young Scientist Award

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Dr. Jianlong Chai | Analytical Techniques | Young Scientist Award

Institute of Modern Physics, Chinese Academy of Sciences, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Jianlong Chai’s academic journey is deeply rooted in the field of nuclear materials science, with a focus on high-performance ceramic composites for next-generation nuclear fission reactors. His expertise lies in understanding the complex interactions between ion beams and materials, particularly in fusion reactor environments. Through advanced material characterization techniques, he has investigated the synergistic effects of ion irradiation and plasma irradiation, paving the way for the development of radiation-resistant ceramic materials. His academic training and research experience at the Institute of Modern Physics, Chinese Academy of Sciences, have provided him with a solid foundation in experimental nuclear material science.

🏢 Professional Endeavors

As a Doctor & Research Assistant at the Institute of Modern Physics, Chinese Academy of Sciences, Dr. Chai has been actively engaged in cutting-edge research on the performance and durability of materials in extreme conditions. His work primarily focuses on developing and evaluating advanced ceramic composites, which are crucial for enhancing the structural integrity of nuclear reactors. In addition, he has contributed to national and international research initiatives, securing funding from prestigious scientific programs such as the National Natural Science Foundation of China and the National Key R&D Program of China. His collaborative research efforts have significantly advanced the understanding of fusion reactor wall materials under extreme conditions.

🔬 Contributions and Research Focus

Dr. Chai’s research has led to several groundbreaking innovations in nuclear materials science:

  • Successfully developed intergranular-strengthened and intragranular particle-toughened ceramic composites, enhancing their mechanical performance under irradiation.
  • First to observe ZrO₂ phase transformation using TEM imaging, contributing to the understanding of toughening mechanisms in triple-phase ceramic composites.
  • Refined indentation toughness evaluation methods, enabling precise assessment of the mechanical properties of multi-phase ceramics.
  • Conducted pioneering studies on the effects of ion irradiation, plasma interaction, and high-temperature displacement damage on W (tungsten) materials in fusion reactors, investigating dislocation loop size, density evolution, and nanohardness variations.

🌍 Impact and Influence

Dr. Chai’s research has had a significant impact on the development of advanced nuclear materials, particularly in the realm of fusion energy. His findings have contributed to the global scientific understanding of radiation effects on reactor materials, influencing both academic research and practical applications in nuclear reactor design. Through his published work and collaborative research, he has provided key insights into material performance under extreme irradiation conditions, addressing critical challenges in the nuclear energy sector.

📚 Academic Citations and Research Contributions

Dr. Chai has an impressive citation index of 12, reflecting the recognition and impact of his research within the scientific community. His contributions to high-performance ceramic composites and fusion reactor materials have been widely cited in leading scientific journals. Additionally, he has successfully secured multiple research grants, including:

  • National Natural Science Foundation of China (No. 12205349)
  • Gansu Youth Science and Technology Fund (No. 23JRRA652)
  • National Key R&D Program of China (No. 2022YFB3708500)

These projects highlight his ability to secure funding for high-impact research and his active role in national scientific initiatives.

⚙️ Technical Skills and Expertise

Dr. Chai is proficient in advanced material characterization and nuclear materials research techniques, including:

  • Transmission Electron Microscopy (TEM) imaging, crucial for studying microstructural changes in irradiated materials.
  • Ion irradiation studies, focusing on the effects of plasma irradiation on fusion reactor wall materials.
  • Mechanical property evaluation methods, including indentation toughness assessments for ceramic composites.
  • Nanohardness measurements to analyze radiation-induced material degradation.
  • High-temperature testing for assessing material durability under extreme conditions.

His expertise in experimental methodologies allows him to conduct high-precision studies on the behavior of nuclear materials.

📖 Teaching Experience and Mentorship

While Dr. Chai is primarily focused on research, his contributions extend to mentoring young scientists and researchers in the field of nuclear materials science. Through his involvement in scientific projects and experimental studies, he has guided students and junior researchers, helping them develop expertise in ion beam interactions, material analysis, and ceramic composite development. His hands-on mentorship ensures that the next generation of researchers is well-equipped with the knowledge and technical skills necessary for advancing nuclear materials science.

🚀 Legacy and Future Contributions

Dr. Chai is committed to pushing the boundaries of nuclear materials research, particularly in the development of radiation-resistant and high-performance ceramic materials. His future research will focus on:

  • Enhancing the toughness and stability of ceramic composites through novel strengthening mechanisms.
  • Exploring new multi-phase material systems to improve fusion reactor wall materials.
  • Advancing irradiation studies to better understand the synergistic effects of ion and plasma irradiation.
  • Contributing to large-scale research collaborations aimed at developing next-generation nuclear energy technologies.

With his strong research background, technical expertise, and innovative approach, Dr. Chai is poised to make significant contributions to the field of nuclear materials science, helping pave the way for safer and more efficient nuclear reactors.

📖Notable Publications

  • Structural damage and bubble evolution in SiC-ZrC composite irradiated with 500 keV He-ions at various temperatures
    Authors: Y. Zhu, L. Niu, J. Chai, C. Yao, Z. Wang
    Journal: Journal of the European Ceramic Society
    Year: 2025

  • Experimental investigation of microstructure and mechanical properties of β-SiC with various sintering additives supplemented by first-principles calculations
    Authors: B. Chen, L. Niu, J. Chai, X. Lu, Y. Zhu
    Journal: Ceramics International
    Year: 2025

  • Co-evolution of M23C6 precipitates and cavities in a boron-free Ni-based alloy GH3617 under high-temperature He ion irradiation: Effects on cavity swelling and mechanical properties
    Authors: P. Jin, L. Zhang, M. Cui, Z. Wang, T. Shen
    Journal: Materials Characterization
    Year: 2024

Thulya Chakkumpulakkal Puthan Veettil | Analytical Chemistry | Women Researcher Award

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Dr. Thulya Chakkumpulakkal Puthan Veettil | Analytical Chemistry | Women Researcher Award

Nutrition Care, Australia

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Thulya Chakkumpulakkal Puthan Veettil began her academic journey with a B.Sc. in Physics (2009-2012) from the University of Calicut, India, where she developed a strong foundation in materials science. She then pursued an M.Tech in Materials Science and Technology with a specialization in Nanotechnology (2013-2016) at the University of Mysore, India, securing an impressive GPA of 9.00/10.00. Her passion for advanced materials, point-of-care diagnostics, and biomedical applications led her to the Monash–Bath Global PhD Programme (2019-2024). During her Ph.D. at Monash University, Australia, and the University of Bath, UK, she conducted extensive research in disease diagnostics, microfluidic devices, antimicrobial resistance, biomaterials, and regenerative medicine.

🏛️ Professional Endeavors

Dr. Thulya has amassed significant experience in academia, research, and industry. Currently, she is serving as a Senior Quality Control Chemist at Nutrition Care Pharmaceuticals, Victoria, Australia (September 2024 – Present), where she plays a crucial role in ensuring pharmaceutical product quality and safety. Alongside her industry experience, she has an extensive teaching background as a Teaching Associate at Monash University (2021-2024), mentoring students in first-year to final-year undergraduate chemistry courses. She has also contributed to pharmacy education at the University of Bath, UK (2023-2024) and has taught master's courses in Materials Science and Engineering at Monash University. Her academic contributions are complemented by her role as a Programme Officer – Scientist B (2016-2018) at the Vikram A. Sarabhai Community Science Centre (VASCSC), India, where she was actively involved in STEM education and scientific research projects.

🔬 Research Focus and Contributions

Dr. Thulya’s research revolves around point-of-care disease diagnostics, antimicrobial resistance, biomaterials, regenerative medicine, and Process Analytical Technology (PAT). She has significantly contributed to the development of microfluidic point-of-care devices for early and precise disease detection. Her expertise in chemometrics and machine learning has enhanced diagnostic accuracy, making disease detection more efficient. She has also conducted extensive research on antimicrobial resistance (AMR) and its public health implications, contributing valuable insights into combatting drug-resistant pathogens. Additionally, her work in biomaterials and regenerative medicine has facilitated advancements in tissue engineering and drug delivery systems. Her research expertise extends to vibrational spectroscopic techniques such as Infrared (IR), Raman, UV-Vis-NIR, and Atomic Force Microscopy (AFM), which she employs for material characterization and quality control in pharmaceutical and biomedical applications.

🌍 Impact and Influence

Dr. Thulya’s research holds significant global relevance in healthcare, materials science, and pharmaceuticals. Her work in point-of-care diagnostics and antimicrobial resistance research is crucial in the fight against drug-resistant infections. By developing microfluidic devices and novel biomaterials, she is helping advance personalized medicine and regenerative therapies. Her expertise in Process Analytical Technology (PAT) methods ensures high-quality control standards in pharmaceutical manufacturing, impacting both industrial and clinical applications.

📈 Academic Citations & Recognition

As a dedicated researcher, Dr. Thulya has contributed to several peer-reviewed journal articles, book chapters, and industry reports, showcasing her commitment to advancing scientific knowledge. Her work has gained recognition in materials science, biomedical engineering, and pharmaceutical research, further solidifying her reputation as a pioneering scientist in her field.

🛠️ Technical Skills

Dr. Thulya possesses a comprehensive technical skill set, making her a versatile scientist in pharmaceutical, biomedical, and materials science research. Her expertise includes chemometrics and machine learning for data analysis, microfluidic device development for disease diagnostics, and advanced spectroscopy techniques such as Infrared (IR), Raman, UV-Vis-NIR, and AFM for material characterization. She is also skilled in Process Analytical Technology (PAT), quality control, and pharmaceutical product evaluation, ensuring compliance with industry standards.

📚 Teaching & Mentorship

With her strong academic background, Dr. Thulya has played a pivotal role as a Teaching Associate at Monash University and the University of Bath. She has mentored students at various levels, from undergraduate chemistry courses to final-year pharmacy and master's programs in materials science and engineering. Her interdisciplinary expertise allows her to provide valuable insights to students in chemistry, materials science, biomedical engineering, and pharmaceuticals. Her dedication to teaching and mentorship has contributed to the academic growth of many aspiring scientists and industry professionals.

🌟 Legacy and Future Contributions

Dr. Thulya Chakkumpulakkal Puthan Veettil continues to drive innovation in healthcare, pharmaceuticals, and materials science. Her contributions to point-of-care diagnostics, antimicrobial resistance research, biomaterials, and regenerative medicine will pave the way for new treatments, medical technologies, and quality control advancements. As she continues her journey as a Senior Quality Control Chemist in Australia’s pharmaceutical sector, she will play a key role in enhancing healthcare solutions and ensuring the safety and efficacy of medical products. Her passion for scientific discovery and translational research will undoubtedly leave a lasting impact on both academia and industry.

📖Notable Publications

  1. Evolution of vibrational biospectroscopy: multimodal techniques and miniaturisation supported by machine learning
    Authors: Mclean A., Veettil T.C.P., Giergiel M., Wood B.R.
    Journal: Vibrational Spectroscopy
    Year: 2024

  2. Revolutionising Health Science: A Historical and Future Perspective on Multimodal, Miniaturisation, and Machine Learning in Biospectroscopy
    Authors: Aaron McLean, Thulya Chakkumpulakkal Puthan Veettil, Magdalena Giergiel, Bayden R. Wood
    Journal: Preprint
    Year: 2024

  3. A Multimodal Spectroscopic Approach Combining Mid-infrared and Near-infrared for Discriminating Gram-positive and Gram-negative Bacteria
    Authors: Thulya Chakkumpulakkal Puthan Veettil, Kamila Kochan, Galain C. Williams, Kimberley Bourke, Xenia Kostoulias, Anton Y. Peleg, Dena Lyras, Paul A. De Bank, David Perez-Guaita, Bayden R. Wood
    Journal: Analytical Chemistry
    Year: 2024

  4. Illuminating Malaria: Spectroscopy’s Vital Role in Diagnosis and Research
    Authors: Bayden R. Wood, John A. Adegoke, Thulya Chakkumpulakkal Puthan Veettil, Ankit Dodla, Keith Dias, Neha Mehlawat, Callum Gassner, Victoria Stock, Sarika Joshi, Magdalena Giergiel et al.
    Journal: Spectroscopy Journal
    Year: 2024

  5. Ultrafast and Ultrasensitive Bacterial Detection in Biofluids: Leveraging Resazurin as a Visible and Fluorescent Spectroscopic Marker
    Authors: Neha Mehlawat, Thulya Chakkumpulakkal Puthan Veettil, Rosemary Sharpin, Bayden R. Wood, Tuncay Alan
    Journal: Analytical Chemistry
    Year: 2024

 

 

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