Changjin Xu | Analytical Chemistry | Best Researcher Award -1902

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Dr. Changjin Xu | Analytical Chemistry | Best Researcher Award

Inner Mongolia Medical University, China

šŸ‘Øā€šŸŽ“Profiles

āœØ Early Academic Pursuits

Dr. Changjin Xu began his academic journey with a strong foundation in chemical engineering and technology. His undergraduate studies at Inner Mongolia Agricultural University (2010-2014) laid the groundwork for his passion for materials science and applied chemistry. He pursued a Masterā€™s degree in Applied Chemistry at Inner Mongolia University (2014-2017), further refining his expertise in the field. His dedication to research led him to obtain a Ph.D. in Materials Science from Northeastern University (2017-2021), where he conducted in-depth studies on nanomaterials and catalytic performance.

šŸŽ“ Professional Endeavors

Since April 2022, Dr. Xu has been serving as a Lecturer at the School of Pharmacy, Inner Mongolia Medical University. His role involves teaching, mentoring students, and conducting high-impact research in materials science and its applications in the pharmaceutical sector.

šŸ’Ŗ Contributions and Research Focus

Dr. Xuā€™s research primarily revolves around nanomaterials synthesis, catalytic performance optimization, and intermetallic compounds. His expertise in micro-arc oxidation preparation has significantly contributed to advancements in catalysis and materials science.

Notable Research Project:

  • National Natural Science Foundation of China (NSFC) General Project (51971059)
    • Title: Micro-arc oxidation preparation and catalytic performance research of precious metal intermetallic compound nanocrystals
    • Duration: 2020-01-01 to 2023-12-31
    • Funding: RMB 600,000
    • Role: Participated in the project, contributing to innovative research in catalytic materials.

šŸŒŸ Impact and Influence

Dr. Xuā€™s research has made notable contributions to the field of materials science and catalysis, with implications in pharmaceutical and chemical engineering applications. His work in nanocrystal synthesis and catalytic efficiency improvement is paving the way for future innovations.

šŸŽ‰ Academic Citations

Dr. Xuā€™s publications in high-impact journals have received recognition within the scientific community. His research papers focus on nanostructured materials, surface engineering techniques, and advanced catalysis.

šŸ› ļø Technical Skills

Dr. Xu is proficient in materials characterization techniques, nanomaterial synthesis, catalytic performance analysis, and micro-arc oxidation. His expertise spans multiple advanced methodologies, ensuring his research aligns with global scientific advancements.

šŸ‘Øā€šŸ‘©ā€šŸ‘¦ Teaching Experience

As a lecturer, Dr. Xu actively engages in student mentorship, curriculum development, and research supervision. His ability to integrate real-world applications into academic learning enhances students’ understanding of materials science in pharmaceuticals.

āš–ļø Legacy and Future Contributions

Dr. Xu aims to continue his groundbreaking research in nanomaterials and catalysis, expand his collaborative projects, and contribute to the development of new materials for pharmaceutical applications. His commitment to academic excellence and innovation ensures his lasting impact on the scientific community

šŸ“–Notable Publications

From FCC to BCC: Engineering Pd nuclearity in the PdCu catalyst to enhance ethylene selectivity in acetylene hydrogenation
Authors: Changjin Xu, Yinglei Liu, Huiqing Guo, Chun Du, Gaowu Qin, Song Li
Journal: Inorganic Chemistry
Year: 2025

Engineering CeO2 configurations to regulate the CuO dispersion and switch pathways of preferential CO oxidation
Authors: Junfang Ding, Changjin Xu, Guilan Fan, Tuya Naren, Yan Wang, Yang Liu, Xiaojun Gu, Limin Wu, Shanghong Zeng
Journal: Applied Catalysis B: Environmental
Year: 2023

Enhancing selectivity for semi-hydrogenation of Ni by periodic isolation in the MMā€²X structure
Authors: Yinglei Liu, Changjin Xu, Bo Yang, Xiangying Meng, Gaowu Qin, Song Li
Journal: Catalysis Science & Technology
Year: 2023

Carbon-CeO2 interface confinement enhances the chemical stability of Pt nanocatalyst for catalytic oxidation reactions
Authors: Xu Changjin, Zhang Yue, Chen Jing, Li Song, Zhang Yawen, Qin Gaowu
Journal: Science China Materials
Year: 2021

Engineering the epitaxial interface of Pt-CeO2 by surface redox reaction guided nucleation for low temperature CO oxidation
Authors: Xu Changjin, Wu Yutong, Li Song, Zhou Jun, Chen Jing, Jiang Min, Zhao Hongda, Qin Gaowu
Journal: Journal of Materials Science & Technology
Year: 2020

Olakunle Oluwaleye | Analytical Chemistry | Best Researcher Award -1860

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Dr. Olakunle Oluwaleye | Analytical Chemistry | Best Researcher Award

Tshwane University of Technology, South Africa

šŸ‘Øā€šŸŽ“Profiles

šŸŽ“ Early Academic Pursuits

Dr. Olakunle Oluwaleye’s academic journey began with a strong foundation in physics and materials science. He completed his Ph.D. in Physics at the University of South Africa, in collaboration with NRF-iThemba Laboratory for Accelerator-Based Sciences (iThemba LABS) and the National Centre for Nano-Structured Materials at the CSIR in Pretoria. His doctoral research focused on ion beam modification of transparent conducting oxide (TCO) materials, a cutting-edge area with broad applications in spintronics, optoelectronics, sensors, and energy nanodevices.

šŸ¢ Professional Endeavors

Dr. Oluwaleye has accumulated diverse international research and teaching experiences. He has worked as a research assistant at prestigious institutions such as Karlsruhe Institute of Technology (KIT), Germany, and SCK-CEN, Belgium, where he expanded his expertise in nanostructured materials and energy materials. Additionally, he served as a physics lecturer at the University of Johannesburg, further contributing to academic development. His international exposure has provided him with multidisciplinary experience in materials preparation, thin-film synthesis, and semiconductor physics.

šŸ”¬ Contributions and Research Focus

His Ph.D. research played a vital role in advancing ion beam implantation for tailoring the properties of TCO thin films, specifically indium tin oxide (ITO) and zinc oxide (ZnO). He explored the effects of Co+ and V+ ion implantation on these materials, proving their enhanced applicability in spin-based magnetoelectronics, optoelectronics, and energy nanodevices. His thin-film synthesis techniques involved radio frequency (RF) magnetron sputtering, while his analysis utilized cutting-edge material characterization techniques, including XRD, SEM, UV-Vis spectroscopy, PIXE, RBS, FTIR, and AFM.

šŸŒ Impact and Influence

Dr. Oluwaleye has presented his research at multiple prestigious international conferences in India, China, Italy, and the USA, receiving the best presentation award at the International Centre for Theoretical Physics (ICTP) in Italy. His contributions to nanotechnology and materials science have positioned him as a respected figure in energy materials research, with his work cited in international peer-reviewed journals.

šŸ“š Academic Citations and Publications

During his Ph.D. studies, Dr. Oluwaleye published two research articles in internationally recognized peer-reviewed journals. His research continues to gain citations, reflecting its significant impact on materials science and nanotechnology.

šŸ› ļø Technical Skills

Dr. Oluwaleye possesses extensive expertise in a range of scientific and computational tools, including:

  • Thin-film deposition techniques (RF magnetron sputtering)
  • Material characterization methods (VSM, XRD, UV-Vis, SEM, AFM, PIXE, RBS, FTIR, EDX)
  • Material simulation software (SRIM/TRIM Monte Carlo Code)
  • Programming and computing skills (Linux/UNIX environment)

šŸŽ“ Teaching Experience

With a passion for education, Dr. Oluwaleye served as a physics lecturer at the University of Johannesburg. His strong mentorship and research expertise have contributed to shaping the next generation of scientists in materials science and nanotechnology.

šŸš€ Legacy and Future Contributions

Dr. Oluwaleye’s future research aims to push the boundaries of materials innovation, focusing on energy materials, hydrogen storage, nanostructures, and materials modification. His continued work in thin-film synthesis and semiconductor materials will contribute to advancements in sustainable energy and next-generation nanodevices.

šŸ“–Notable Publications

  1. Effects of Induced Structural Modification on Properties of V+ Ion-Implanted RFā€”Magnetron Sputtering Deposited ZnO Thin Films of Thickness 120 nm on Borosilicate Glass Substrates

    • Authors: Olakunle Oluwaleye, Bonex Mwakikunga, Joseph Asante
    • Journal: Nanomaterials
    • Year: 2025

  2. Studies of Lattice Structure, Electrical Properties, Thermal and Chemical Stability of Cobalt Ion Implanted Indium Tin Oxide (ITO) Thin Films on Polymer Substrates

    • Authors: Olakunle Oluwaleye
    • Journal: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
    • Year: 2019

  3. Investigation of Structural and Magnetic Properties of Co+ Ion Implanted Indium Tin Oxide Thin Films on Polyethylene Terephthalate (C10H8O4)n Substrates by 100 keV Ions

    • Authors: Olakunle Oluwaleye
    • Journal: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms
    • Year: 2019

  4. Analysis of the Spatial and Spectral Neutron Distribution of Various Conceptual Core Designs with Aim of Optimizing SAFARI-1 Research Reactor

    • Authors: Olakunle Oluwaleye
    • Journal: Proceedings of the South African Institute of Physics 2013
    • Year: 2014

Robert Hendricks | Analytical Chemistry | Best Researcher Award

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Mr. Robert Hendricks | Analytical Chemistry | Best Researcher Award

Genentech, United States

šŸ‘Øā€šŸŽ“Profiles

šŸŽ“ Early Academic Pursuits

Robert Hendricks pursued his Bachelor of Science in Biology with a Minor in English at California State Polytechnic University, Humboldt, graduating in December 1995. His academic background provided a strong foundation in biological sciences while also honing his communication and analytical skills through English studies.

šŸ’¼ Professional Endeavors

Hendricks has had a distinguished career at Genentech, a leading biotechnology company in the United States. His expertise spans technology development, specifically in bioanalytical assays and laboratory information management systems (LIMS). His contributions to Watson LIMS have played a crucial role in optimizing laboratory workflows and data management.

šŸš€ Contributions and Research Focus

Hendricks has been deeply involved in Watson LIMS technology development at Genentech. His contributions include:

  • Serving as a core team member of the BioAnalytical Watson LIMS evaluation and implementation team from 2000 to 2003, later taking on a leadership role in 2003+.
  • Leading the BioAnalytical Watson LIMS 7.2 team and representing BioAnalytical Assays in the cross-functional Watson LIMS 7.2 team.
  • Designing and implementing a comprehensive training program for Watson LIMS users.
  • Authoring the Genentech Watson LIMS user manual, ensuring standardized and efficient usage across teams.

šŸŒŽ Impact and Influence

Through his leadership and technical expertise, Hendricks has influenced laboratory data management and automation at Genentech, contributing to increased efficiency, accuracy, and compliance in bioanalytical assays. His work in Watson LIMS has streamlined laboratory operations, impacting drug development and quality control processes.

šŸ“š Academic Citations

While his primary focus has been in technology development and implementation, Hendricks’ contributions to Watson LIMS have likely influenced various scientific publications, training materials, and industry best practices in laboratory information management.

šŸ› ļø Technical Skills

Hendricks has demonstrated proficiency in LIMS technology, bioanalytical assay workflows, and laboratory automation. His skill set includes:

  • Watson LIMS evaluation, implementation, and training
  • Technical documentation and user manual development
  • Cross-functional team leadership and collaboration

šŸŽ“ Teaching Experience

A key aspect of Hendricksā€™ contribution has been in training and education within Genentech. He developed and delivered Watson LIMS training courses for BioAnalytical Assays, ensuring that laboratory personnel were well-equipped to utilize the system effectively.

šŸŒŸ Legacy and Future Contributions

Robert Hendricks’ work in Watson LIMS technology has left a lasting impact on laboratory automation and data management at Genentech. His expertise has paved the way for future innovations in bioanalytical workflows. Moving forward, his contributions in LIMS training and implementation will continue to shape biotechnology and pharmaceutical research, ensuring efficiency, compliance, and technological advancement.

šŸ“–Notable Publications

  • Addressing Clinical Challenges in Aberrant Pharmacokinetics of Biologic Therapeutic Drugs: Investigating Sample Processing Procedure in the Immunoassays

    • Authors: Y.W. Chen, O. Davenport, N. Yu, R.T. Hendricks, Y. Song
    • Journal: AAPS Journal
    • Year: 2025

  • Cross validation of pharmacokinetic bioanalytical methods: Experimental and statistical design

    • Authors: I. Nijem, R.J. Elliott, J. Brumm, B. Wang, P.Y. Siguenza
    • Journal: Journal of Pharmaceutical and Biomedical Analysis
    • Year: 2025

  • Author Correction: Anti-TIGIT antibody improves PD-L1 blockade through myeloid and Treg cells (Nature, 10.1038/s41586-024-07121-9)

    • Authors: X. Guan, R. Hu, Y. Choi, R.J. Johnston, N.S. Patil
    • Journal: Nature
    • Year: 2024

Rotan Kumar Saha | Analytical Techniques | Best Researcher Award

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Mr. Rotan Kumar Saha | Analytical Techniques | Best Researcher Award

Dhaka University of Engineering and Technology (DUET), Bangladesh

šŸ‘Øā€šŸŽ“Profiles

šŸŽ“ Academic and Professional Background

Rotan Kumar Saha is a Lecturer in the Department of Industrial & Production Engineering (IPE) at Dhaka University of Engineering & Technology (DUET), Gazipur, Bangladesh. He holds an M.Sc. in Mechanical Engineering with a perfect CGPA of 4.00, demonstrating his strong academic foundation and dedication to excellence. His expertise spans multiple fields, including additive manufacturing, 3D printing, lean manufacturing, advanced manufacturing, and Lean Six Sigma. As a researcher, he actively engages in various projects that contribute to industrial and academic advancements, particularly in the areas of process optimization and smart manufacturing.

šŸ”¬ Research and Innovations

Rotan Kumar Saha has been actively involved in several research and industrial projects, making significant contributions to the fields of manufacturing and materials science. His research portfolio includes 07 completed or ongoing research projects, demonstrating his commitment to innovative exploration. Additionally, he has published 02 journal papers in reputed SCI and Scopus-indexed journals, reinforcing his growing academic influence. He has also collaborated on 04 research projects with various academic and industry partners, enhancing interdisciplinary research efforts. Furthermore, his expertise extends to consultancy and industry projects, with 01 completed project showcasing his ability to apply theoretical knowledge to practical industrial applications.

šŸ› ļø Areas of Research

Mr. Sahaā€™s research primarily focuses on advanced manufacturing processes, materials science, and optimization techniques. His work in 3D printing and additive manufacturing includes the development of photopolymer composite materials for soft robotics, aiming to revolutionize flexible and responsive materials. In CNC machining optimization, he has explored machining parameters for titanium alloys, contributing to efficiency improvements and enhanced product performance. His work in sustainable composite materials involves the fabrication of eco-friendly composites for automotive applications, aligning with the global shift towards sustainable manufacturing. Moreover, he employs advanced process optimization methodologies, such as Response Surface Methodology (RSM) and Analysis of Variance (ANOVA), to refine manufacturing processes, reduce waste, and enhance productivity.

šŸ“Š Impact and Influence

Despite being in the early stages of his academic career, Rotan Kumar Sahaā€™s contributions to research and industry are steadily gaining recognition. His citation index stands at 02, reflecting the initial impact of his published works. While he has yet to secure patents or publish books, his research trajectory suggests a strong potential for future breakthroughs. Although he currently holds no editorial appointments, his continuous engagement with high-impact research projects positions him as a promising academic and industry expert. His ongoing efforts in manufacturing innovations, materials optimization, and sustainable production techniques are expected to make a significant impact in the coming years.

šŸŽ“ Professional Memberships and Collaborations

Collaboration plays a vital role in Mr. Sahaā€™s academic journey, as evidenced by his 04 research partnerships with institutions and industry leaders. His engagement in professional networks and research groups enables him to contribute meaningfully to cutting-edge manufacturing technologies. Through these collaborations, he actively shares knowledge, explores interdisciplinary approaches, and enhances the industrial applicability of his research.

šŸŒ Future Contributions

As an emerging researcher and educator, Rotan Kumar Saha envisions a future where his work significantly influences manufacturing efficiency, material sustainability, and industrial automation. He aims to develop novel materials for additive manufacturing, particularly for applications in robotics and healthcare. Additionally, he seeks to optimize manufacturing processes using AI-driven modeling techniques, further advancing the field of smart manufacturing. His commitment to sustainable production solutions aligns with global efforts to minimize environmental impact in industrial engineering. With his expertise in advanced manufacturing and optimization, he is poised to make substantial contributions to industrial innovation and sustainable engineering practices.

šŸ“–Notable Publications

  • Electro-mechanical analysis of nanostructured polymer matrix composite materials for 3D printing using machine learning

    • Authors: MI Hossain, MA Chowdhury, S Mahamud, RK Saha, MS Zahid, J Ferdous, …
    • Journal: Chemical Engineering Journal Advances
    • Year: 2024

  • Lean Tools and Techniques for Improving Production Performance and Waste Reduction in A Plastic Company: A Case Study

    • Authors: RK Saha, F Mahmud
    • Journal: ā€”
    • Year: 2022

  • Optimization of cutting temperature and surface roughness in CNC turning of Ti-6Al-4V alloy using response surface methodology

    • Authors: S Hossain, MZ Abedin, RK Saha, M Touhiduzzaman, MJ Hossen
    • Journal: Heliyon
    • Year: 2025

  • Investigation of the Effect of Cutting Parameters on Surface Roughness in Dry Turning of Hardened Steel Using the Taguchi Method

    • Authors: MT Rotan Kumar Saha, G Hossain, MM Rahman, NC Ray, MS Hossain, …
    • Journal: 6th Industrial Engineering and Operations Management Bangladesh Conference
    • Year: 2023

  • Reduction of Changeover Time by Using the SMED Technique with the Assistance of Lean Manufacturing Tools in a Plastic Company

    • Authors: MMU Rotan Kumar Saha, MM Rahman, MT Islam, MM Mumin
    • Journal: 6th Industrial Engineering and Operations Management Bangladesh Conference
    • Year: 2023

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.

Profile

Google Scholar

Early academic pursuits šŸŽ“

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 šŸ›ļø

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 šŸ”¬

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 šŸ†

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 šŸŒ

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 šŸ”­

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 Vā‚‚Oā‚… nanoparticles enhances photodegradation of methylene blue
    Authors: R. Suresh, K. Giribabu, R. Manigandan, S. Munusamy, S.P. Kumar, …
    Year: 2014

 

  • MnWOā‚„ 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 Vā‚‚Oā‚… 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

Fei Yu | Analytical Chemistry | Best Researcher Award

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Mr. Fei Yu | Analytical Chemistry | Best Researcher Award

Shanghai Tenth People's Hospital, China

šŸ‘Øā€šŸŽ“Profiles

šŸŽ“ Early Academic Pursuits

Yu Feiā€™s academic journey began with a Bachelor of Medicine (B.Med.) in Nuclear Medicine from Soochow University (1996-2001). This foundational education provided a strong background in medical imaging and nuclear diagnostics. Building on this, Yu Fei pursued a Master of Science (M.Sc.) in Public Health at Fudan University (2005-2008), which broadened his expertise in epidemiology, healthcare management, and disease prevention strategies. To further specialize in nuclear medicine, he completed a Doctor of Medicine (Ph.D.) at Tongji University (2009-2012), focusing on advanced medical imaging, radiopharmaceuticals, and nuclear diagnostics.

šŸ„ Professional Endeavors

Yu Fei has been an integral part of Tongji University and Shanghai Tenth Peopleā€™s Hospital, where he has steadily progressed through various roles:

  • Physician (2001-2007) ā€“ Gaining hands-on clinical experience in diagnostic imaging and nuclear medicine procedures.
  • Attending Physician (2007-2013) ā€“ Expanding his clinical expertise while taking on responsibilities in patient care, research, and teaching.
  • Associate Chief Physician (2013-2018) ā€“ Playing a pivotal role in medical research and supervising junior physicians.
  • Chief Physician (2018-Present) ā€“ Leading advancements in nuclear medicine, guiding medical teams, and contributing to innovative research.

His steady career progression reflects dedication, expertise, and leadership in the medical field.

šŸ”¬ Contributions and Research Focus

Yu Feiā€™s research is centered on nuclear medicine and public health, with a particular focus on:

  • Radiopharmaceuticals and Molecular Imaging ā€“ Enhancing early disease detection and treatment effectiveness.
  • Oncological Imaging ā€“ Using PET/CT and SPECT for cancer diagnostics and therapy assessment.
  • Nuclear Cardiology ā€“ Advancing non-invasive imaging techniques for cardiovascular diseases.
  • Public Health and Preventive Medicine ā€“ Contributing to healthcare policies and epidemiological studies.

His work has improved diagnostic accuracy, influenced treatment strategies, and contributed to advancements in personalized medicine.

šŸŒ Impact and Influence

As a Chief Physician at Shanghai Tenth Peopleā€™s Hospital, Yu Fei has significantly impacted the fields of nuclear medicine and medical imaging. His leadership in clinical applications, research innovations, and academic mentorship has shaped both medical practice and scientific advancements. His contributions in oncology, cardiology, and public health imaging continue to influence medical professionals locally and internationally.

šŸ“š Academic Citations and Publications

Yu Fei has published numerous research papers in leading medical journals, focusing on nuclear medicine applications, radiopharmaceuticals, and imaging advancements. His research has been widely cited, reflecting his influence in the academic and medical research communities.

šŸ› ļø Technical Skills

With extensive experience in nuclear medicine and diagnostic imaging, Yu Fei is proficient in:

  • Positron Emission Tomography (PET/CT)
  • Single Photon Emission Computed Tomography (SPECT)
  • Radiopharmaceutical Development and Application
  • Cardiac and Oncological Nuclear Imaging
  • Epidemiological Data Analysis in Public Health

His technical expertise enables accurate diagnosis and cutting-edge research in nuclear imaging.

šŸ‘Øā€šŸ« Teaching and Mentorship

Yu Fei has played a key role in training and mentoring medical students, residents, and junior physicians at Tongji University and Shanghai Tenth Peopleā€™s Hospital. His teaching contributions include:

  • Clinical Training in Nuclear Medicine ā€“ Preparing future specialists with hands-on experience.
  • Medical Research Supervision ā€“ Guiding students in conducting and publishing research.
  • Continuing Medical Education (CME) Programs ā€“ Enhancing the skills of practicing professionals in nuclear medicine.

His mentorship has fostered the growth of future medical leaders and researchers.

šŸš€ Legacy and Future Contributions

Yu Feiā€™s career has already left a significant mark on nuclear medicine and medical imaging. Looking ahead, his goals include:

  • Expanding Research in Molecular Imaging ā€“ Improving early disease detection techniques.
  • Developing Innovative Radiopharmaceuticals ā€“ Enhancing therapeutic applications.
  • Advancing Public Health Imaging ā€“ Integrating nuclear medicine in preventive healthcare.
  • Mentoring the Next Generation ā€“ Continuing to train and inspire future medical professionals.

šŸ“–Notable Publications

Minal Ghante | Analytical Chemistry | Best Researcher Award

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Dr. Minal Ghante | Analytical Chemistry | Best Researcher Award

Smt. Kashibai Navale College of Pharmacy, India

šŸ‘Øā€šŸŽ“Profiles

šŸŽ“ Early Academic Pursuits

From the outset of your academic journey, you demonstrated a keen interest in chemistry and material sciences, which led you to pursue higher education in this field. Your Bachelorā€™s, Masterā€™s, and Ph.D. studies at Thiruvalluvar University provided a solid foundation in chemistry, focusing on nanomaterials and electrocatalysis. Your early research efforts delved into photocatalysis and energy storage systems, setting the stage for your future contributions to renewable energy research.

šŸ† Professional Endeavors

Your professional career has been shaped by roles in academia and research, particularly through your postdoctoral fellowship at Chulalongkorn University, Bangkok, Thailand. Under the mentorship of Dr. Piyasan Praserthdam, you continued your explorations in electrocatalysis and nanomaterials. Your expertise spans energy storage, hydrogen evolution reaction (HER), and catalysis, with a specific focus on sustainable and platinum-free electrocatalysts.

šŸ”¬ Contributions and Research Focus

A key area of your research revolves around the design and development of nanomaterials for energy conversion. Your work in HER and OER electrocatalysis has played a pivotal role in advancing green hydrogen technology. You have also contributed to the study of supercapacitors, electrochemical impedance spectroscopy, and photocatalytic materials, making significant strides toward efficient and cost-effective energy solutions. Your Ph.D. thesis focused on the synthesis, characterization, and application of platinum-free electrocatalysts, demonstrating your commitment to sustainable research.

šŸŒ Impact and Influence

Your research has had a profound impact on the field of sustainable energy and nanotechnology, contributing to the global push for cleaner energy solutions. Through international collaborations and scientific publications, your work has influenced both academic circles and industrial applications. The practical applications of your research in energy storage and hydrogen production have the potential to revolutionize renewable energy technologies.

šŸ“š Academic Citations and Publications

Your scholarly contributions include several SCI-indexed publications, showcasing your research in renowned journals and international conferences. Your work has garnered significant recognition, with numerous citations in leading scientific papers. This highlights the relevance and impact of your findings in the scientific community.

šŸ› ļø Technical Skills

With a strong background in analytical and electrochemical techniques, you possess expertise in:

šŸ‘Øā€šŸ« Teaching and Mentorship

Throughout your academic career, you have actively mentored and guided students, fostering the next generation of researchers. Your involvement in student projects during your Ph.D. and postdoctoral tenure has played a crucial role in their academic and professional development. Your dedication to knowledge-sharing and mentorship is a testament to your commitment to academic excellence.

šŸš€ Legacy and Future Contributions

Your long-term vision includes expanding the frontiers of green energy research by focusing on sustainable electrocatalysts and advanced nanomaterials. Your work has already paved the way for innovative energy storage systems, and you continue to explore cost-effective solutions for hydrogen production and environmental sustainability. Moving forward, you aim to contribute to cutting-edge research, mentor upcoming scientists, and drive impactful collaborations worldwide.

šŸ“–Notable Publications

  • RP-HPLC and HPTLC method development and validation for estimation of dolutegravir in bulk and tablet dosage form
    Authors: Ghante, M.R.; Sawant, S.D.; Undre, M.; Jagtap, S.G.; Kulkarni, P.; Nikam, V.S.
    Journal: Indian Drugs
    Year: 2019

  • Stability indicating method development and validation of finasteride by high-performance thin-layer chromatography studies
    Authors: Sawant, S.; Ghante, M.
    Journal: Asian Journal of Chemistry
    Year: 2017

  • Development and validation of stability indicating method for darunavir with forced degradation studies using LC-ESI-MS/MS
    Authors: Ghante, M.; Sawant, S.D.
    Journal: Asian Journal of Chemistry
    Year: 2016

  • Development and validation of UV spectrophotometric method for estimation of Darunavir ethanolate in bulk and tablet dosage form
    Authors: Ghante, M.R.; Shelar, R.S.; Sawant, S.D.; Kadam, M.M.
    Journal: International Journal of Pharmacy and Pharmaceutical Sciences
    Year: 2014

  • Development and validation of UV spectrophotometric methods for estimation of Atazanavir sulphate in bulk and tablet dosage form
    Authors: Ghante, M.R.; Kadam, M.M.; Sawant, S.D.; Shelar, R.S.
    Journal: International Journal of Pharmacy and Pharmaceutical Sciences
    Year: 2014

 

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

šŸ‘Øā€šŸŽ“Profiles

šŸŽ“ 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 Monashā€“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.

šŸ›ļø 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 ā€“ 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 ā€“ 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.

šŸ”¬ Research Focus and Contributions

Dr. Thulyaā€™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.

šŸŒ Impact and Influence

Dr. Thulyaā€™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.

šŸ“ˆ 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.

šŸ› ļø 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.

šŸ“š 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.

šŸŒŸ 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 Australiaā€™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.

šŸ“–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: Spectroscopyā€™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

 

 

4o

Sarika Jain | Analytical Chemistry | Women Researcher Award -1759

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Dr. Sarika Jain | Analytical Chemistry | Women Researcher Award

Amity University Haryana, India

šŸ‘Øā€šŸŽ“Profiles

šŸŽ“ Early Academic Pursuits

Sarika Jainā€™s academic journey is marked by excellence and dedication to the field of mathematics. She completed her Bachelorā€™s degree in Mathematics (Hons.) from Delhi University in 2005, achieving an outstanding 89% score, which laid the foundation for her higher studies. Her passion for mathematics led her to IIT Delhi, where she pursued a Masterā€™s degree in Mathematics and secured a CGPA of 7.13 in 2007. Determined to contribute to research, she enrolled in a Ph.D. program at IIT Delhi, where she worked on Numerical Modeling of the Impact of Urbanization in the DMIC Region on Surface Air Temperature. She successfully completed her coursework with an impressive CGPA of 9.2, showcasing her strong analytical and research capabilities.

šŸ¢ Professional Endeavors

With 15 years of experience, Sarika Jain has made significant contributions to both academia and industry. Her career spans 13 years in teaching and 2 years in the industry, where she has been involved in research, education, and data analysis. She currently holds the position of Associate Professor at Amity University, Gurugram, a role she has been serving in since June 2023, where she is actively engaged in teaching and research. Previously, she was an Assistant Professor at the same institution from 2012 to 2023, playing a crucial role in academic development and research guidance.

Her teaching career also includes a stint as a Senior Lecturer at IMC, New Delhi (2011-2012) and a Lecturer at WIT, Gurgaon (2009-2010), where she nurtured students in mathematics and computational sciences. Apart from academia, she has industrial experience as an Analyst at MG Mobile Trading Pvt. Ltd., New Delhi (2007-2009), specializing in data analysis and mathematical modeling. She also worked as a Subject Matter Expert at Prometric Testing Pvt. Ltd., Gurgaon (2011), contributing to technical services and assessments.

šŸ“š Research Focus and Contributions

Sarika Jainā€™s research interests span multiple domains, including Weather Research Forecasting (WRF) Modeling, Statistical Data Analysis, Optimization, Nature-Inspired Algorithms, Machine Learning, Artificial Intelligence, and Soft Computing. Her Ph.D. research focused on analyzing the impact of urbanization on surface air temperature, using numerical modeling techniques to understand environmental changes in urban regions. Given the increasing concerns about climate change and urban expansion, her research provides valuable insights for sustainable urban development.

Her work in nature-inspired optimization algorithms has further applications in solving large-scale computational problems. By integrating mathematical modeling, AI, and statistical analysis, she has contributed to advancements in climate forecasting, machine learning applications, and optimization techniques.

šŸŒ Impact and Influence

Sarika Jainā€™s research has been recognized in high-impact journals and international conferences, reinforcing her influence in computational mathematics and artificial intelligence. Her contributions are documented under her Scopus ID (57220831968) and ORCID ID (0000-0002-4795-9556), which highlight the significance of her work.

Her research in climate modeling and AI-driven predictive analysis has practical applications in urban development, environmental sustainability, and smart city planning. Through her work, she has helped develop advanced forecasting models that aid policymakers and industries in making informed decisions regarding climate adaptation and risk assessment.

šŸ“Š Academic Citations and Recognitions

Sarika Jainā€™s research contributions have been widely cited in academic publications and industry reports. Her work in climate forecasting, statistical modeling, and artificial intelligence applications has served as a foundation for future research in these domains. The growing citations of her publications reflect the relevance and impact of her research in the broader scientific community.

šŸ–„ļø Technical Skills

Sarika Jain possesses strong technical expertise in applied mathematics and computational techniques. She has advanced proficiency in Weather Research Forecasting (WRF) Modeling, which is crucial for climate simulations and predictive analytics. Her expertise extends to statistical data analysis, artificial intelligence, machine learning, soft computing, and nature-inspired algorithms, enabling her to create efficient mathematical models for solving complex problems. Her ability to integrate computational intelligence with real-world applications has made her research highly impactful.

šŸŽ“ Teaching Experience

As an educator, Sarika Jain has dedicated 13 years to mentoring students in mathematics and computational sciences. Her research-driven approach to teaching helps bridge the gap between theory and practical applications. She specializes in applied mathematics, statistical computing, and algorithmic modeling, ensuring that students gain the necessary skills to analyze and solve real-world challenges.

She fosters critical thinking and problem-solving abilities among students, encouraging them to pursue research-based learning. Many of her students have gone on to excel in academia, research, and the tech industry, thanks to her mentorship. Her ability to simplify complex mathematical concepts makes her a respected professor, admired for her teaching methodology and academic leadership.

šŸ”® Legacy and Future Contributions

Sarika Jainā€™s contributions to academia, research, and industry continue to grow as she explores new advancements in computational mathematics and artificial intelligence. Moving forward, she aims to:

  • Advance her research in climate forecasting using AI and deep learning.
  • Develop innovative nature-inspired algorithms for large-scale optimization problems.
  • Mentor young researchers and students to contribute to cutting-edge scientific advancements.
  • Establish global collaborations for interdisciplinary research in mathematical modeling.

šŸ“–Notable Publications

Divided opposition strategy in particle swarm framework for constrained optimization problem

Authors: Sarika Jain, Rekha Rani, Pradeep Jangir, Seyed Jalaleddin Mousavirad, Ali Wagdy Mohamed

Journal: Results in Control and Optimization

Year: 2025-03

A hybrid Mountain Gazelle particle swarm-based algorithm for constrained optimization problems

Authors: Rekha Rani, Vanita Garg, Sarika Jain, Harish Garg

Journal: Evolving Systems

Year: 2025-02

A review of nature-inspired algorithms on single-objective optimization problems from 2019 to 2023

Authors: Rekha Rani, Sarika Jain, Harish Garg

Journal: Artificial Intelligence Review

Year: 2024-04-24

Diagnostic Efficacy of LAMP Assay for Human Fungal Pathogens: a Systematic Review and Meta-analysis

Authors: Gurvinder Singh Bumbrah, Sarika Jain, Shweta Singh, Zeeshan Fatima, Saif Hameed

Journal: Current Fungal Infection Reports

Year: 2023-09

Efficacy of LAMP assay for Mycobacterial spp. detection to prevent treatment delays and onset of drug resistance: a systematic review and meta-analysis

Authors: Gurvinder Singh Bumbrah, Sarika Jain, Zeeshan Fatima, Saif Hameed

Journal: Drug Target Insights

Year: 2023-06-07

Prediction of temperature for various pressure levels using ANN and multiple linear regression techniques: A case study

Authors: Sarika Jain, Sarita Rathee, Ajay Kumar, Anivel Sambasivam, Rahul Boadh, Tushar Choudhary, Parveen Kumar, Pravin Kumar Singh

Journal: Materials Today: Proceedings

Year: 2022

 

Md Ahasan Ahamed | Analytical Chemistry | Analytical Chemistry Award

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Mr. Md Ahasan Ahamed | Analytical Chemistry | Analytical Chemistry Award

Bangladesh University of Textiles, Bangladesh

šŸ‘Øā€šŸŽ“Profiles

šŸ“˜ Early Academic Pursuits

The academic journey began with a B.Sc. in Mechanical Engineering from Bangladesh University of Engineering and Technology (BUET) in 2014. During this phase, research was conducted on electricity generation from compression of speed breakers, demonstrating an early interest in applied engineering solutions. Further academic advancement led to a M.S. in Mechanical Design and Production Engineering from Konkuk University, South Korea (2020-2022), where the research focused on developing a pre-programmed microdroplet generator for controlling chemical concentrations. Currently, pursuing a Ph.D. in Electrical Engineering at Pennsylvania State University (2022-2026), integrating Recombinase Polymerase Amplification (RPA) with nanopore sensing for point-of-care disease detection.

šŸ† Professional Endeavors

With over six years of teaching and research experience, the professional journey includes roles as Lecturer and Assistant Professor at Bangladesh University of Textiles (BUTEX) and BGMEA University of Fashion & Technology (BUFT) from 2014 to 2020. Transitioning into the research domain, positions were held as a Graduate Research Assistant at Konkuk University (2020-2022) and Pennsylvania State University (2022-Present). Recently, appointed as a Visiting Scholar at Indiana University, Bloomington (2025-Present), further broadening the academic and research exposure.

šŸ”¬ Contributions and Research Focus

A strong research background in point-of-care (POC) devices, disease diagnosis, and sensor technology has led to significant contributions in designing microfluidic devices and nanopore sensors. Proficiency in biochemical reaction methodologies, including Polymerase Chain Reaction (PCR), Recombinase Polymerase Amplification (RPA), Loop-mediated Isothermal Amplification (LAMP), and CRISPR/Cas12, has played a crucial role in developing diagnostic tools for infectious diseases like Monkeypox, SARS-COVID, Cowpox, and HIV.

šŸŒ Impact and Influence

The research has had a profound impact on healthcare and diagnostic technologies, especially in early detection methods for infectious diseases. The work in integrating machine learning algorithms with sensor-based diagnostics has pushed the boundaries of automation and accuracy in medical testing. The interdisciplinary nature of the researchā€”bridging mechanical design, electrical engineering, and biotechnologyā€”positions it as a key contributor to next-generation disease detection systems.

šŸ“Š Academic Citations & Publications

With a growing influence in the academic world, the research work has been recognized with 67 citations, 18 published papers, and 6 conference and poster presentations. The continuous contribution to high-impact journals and international conferences highlights the commitment to advancing knowledge in biomedical engineering and sensor technology.

šŸ› ļø Technical Skills

Expertise spans across instrumentation, fabrication, and analysis, including hands-on experience with: 3D Printing: Asiga UV Max X43, Ultimaker 3.0, Laser Systems: Universal Laser Systems, Microscopy: Optical Microscopes, Nikon Ti U Inverted Camera, pco.edge 5.5, Sensors & Electronics: Pressure Sensors (PX-309 series, Eve flow series), Axopatch 200b, Molecular Diagnostic Tools: Thermal Cycler (BIORAD T100), Plasma Treatment Machines, Software & Programming: MATLAB, Python, and Machine Learning Algorithms.

šŸŽ“ Teaching Experience

With over six years of teaching experience, expertise has been shared in Mechanical Engineering, Engineering Drawing, Machine Design, MATLAB, and Python programming with undergraduate students. The ability to bridge theoretical knowledge with hands-on applications has benefited students in engineering and research domains.

šŸŒ± Legacy and Future Contributions

Looking ahead, the focus remains on developing innovative diagnostic devices that are cost-effective, rapid, and highly accurate for real-world applications. The integration of machine learning with nanopore sensors will continue to be a significant area of exploration. Additionally, mentoring future researchers and students in interdisciplinary fields will be an integral part of academic and professional contributions.

šŸ“–Notable Publications

Sensitive and specific CRISPR-Cas12a assisted nanopore with RPA for Monkeypox detection
Authors: MA Ahamed, MAU Khalid, M Dong, AJ Politza, Z Zhang, A Kshirsagar, ...
Journal: Biosensors and Bioelectronics 246, 115866
Year: 2024

Electricity generation from speed breaker by air compression method using wells turbine
Authors: MA Ahamed, MI Reza, M Al-Amin
Journal: Journal of Advanced Engineering and Computation 4 (2), 140-148
Year: 2020

Pre-programmed microdroplet generator to control wide-ranging chemical concentrations
Authors: MA Ahamed, G Kim, Z Li, SJ Kim
Journal: Analytica Chimica Acta 1236, 340587
Year: 2022

Functionalized Cellulose for Textile Organic Pollutant Treatment: a Comprehensive Review
Authors: MM Rashid, N Abir, SAB Kamal, M Al-Amin, MA Ahamed, MT Islam, ...
Journal: Water Conservation Science and Engineering 9 (11)
Year: 2024

A Portable Centrifuge for Universal Nucleic Acid Extraction at the Point-of-Care
Authors: AJ Politza, T Liu, A Kshirsagar, M Dong, MA Ahamed, W Guan
Journal: Available at SSRN 4781228
Year: 2024