Martin Anselm | Microstructure | Best Researcher Award

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Assoc. Prof. Dr. Martin Anselm | Microstructure | Best Researcher Award

Rochester Institute of Technology, United States

šŸ‘Øā€šŸŽ“Profiles

Early Academic Pursuits šŸŽ“

Martin K. Anselmā€™s academic journey began with a solid foundation in the field of physics, earning a BA in Physics from the State University of New York at Geneseo in 1999. He then progressed to Clarkson University in Potsdam, NY, where he completed his MS in Mechanical Engineering in 2002. This was followed by a deep dive into the realm of materials science, culminating in a Ph.D. in Materials Science & Engineering from Binghamton University in 2011. His academic background is rich in technical knowledge, specifically focused on materials science and mechanical engineering.

Professional Endeavors šŸŒ

Dr. Anselm currently serves as an Associate Professor in Manufacturing, Mechanical & Electromechanical Engineering Technology at Rochester Institute of Technology (RIT). With a commitment to advancing both academic knowledge and industry collaboration, he plays a vital role in the CEMA Lab at RIT, which heavily relies on industry-backed research projects and cutting-edge industrial manufacturing equipment. His engagement with Surface Mount Technology Association (SMTA) stands out, as he served as SMTA President (2020 - present) and has contributed as SMTA Board Member from 2013 to 2019, alongside holding leadership roles within the Empire Chapter of SMTA. His influence within the electronics manufacturing sector has helped steer numerous initiatives that bridge academia and industry.

Contributions and Research Focus šŸ”¬

Dr. Anselm's research is deeply rooted in electronics solder joint fracture mechanics and microstructural evolution in fatigue, which is crucial for the long-term reliability and performance of electronic components. His other areas of expertise include semiconductor device packaging, electronics assembly manufacturing, and electronics reliability modeling and test development. His work in these domains supports industries that require reliable electronic components for use in everything from consumer electronics to critical infrastructure. His research contributions also extend to the practical aspects of electronics manufacturing, where he is dedicated to improving the quality and durability of solder joints and devices.

Impact and Influence šŸŒŸ

Dr. Anselmā€™s research is influential in both academic and industry circles. His involvement in the SMTAI conference has enabled him to share his expertise and contribute to the dissemination of cutting-edge research in electronics manufacturing. By actively engaging with industry partners, he has helped shape research projects that align with real-world manufacturing challenges. This collaboration has not only resulted in technological advancements but has also provided RIT students and faculty with access to advanced industrial manufacturing equipment, fostering hands-on learning opportunities.

Academic Citations šŸ“š

As a thought leader in his field, Dr. Anselmā€™s work has been widely cited in academic circles, particularly within the realm of electronics manufacturing and materials science. His research contributions are frequently referenced by professionals seeking insights into the fracture mechanics of solder joints and electronics reliability, highlighting the significant impact his work has on both academia and the broader electronics industry.

Technical Skills šŸ”§

Dr. Anselm possesses extensive technical skills in areas including electronics assembly manufacturing, reliability testing, and materials characterization. His expertise in solder joint fracture mechanics is complemented by proficiency in microstructural analysis, which is essential for understanding how fatigue impacts the longevity of electronic components. Additionally, his experience with semiconductor packaging and electronics reliability modeling allows him to offer solutions to complex problems encountered in the design and manufacturing of electronic devices.

Teaching Experience šŸ“–

Dr. Anselmā€™s teaching career is marked by his involvement in courses such as Science of Engineering Materials (ME272) and Processes for Electronics Manufacturing (SSIE 578) at Binghamton University. His instructional approach focuses on integrating academic theory with practical application, ensuring that students are well-prepared for careers in electronics manufacturing and related fields. As an educator, he has not only imparted technical knowledge but also mentored students in research, helping to nurture the next generation of engineers.

Legacy and Future Contributions šŸŒ±

Looking ahead, Dr. Anselm is poised to continue making significant contributions to the field of electronics manufacturing, particularly in improving the reliability of solder joints and advancing semiconductor device packaging. His research is expected to influence the development of more resilient and efficient electronic components that will be critical as industries move towards more compact, high-performance devices. As a mentor and leader, his legacy will be carried forward through his students and the ongoing collaboration between RIT and industry partners.

šŸ“–Notable Publications

 

Mamta Tripathi | Medicinal Chemistry | Women Researcher Award -1632

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Dr. Mamta Tripathi | Medicinal Chemistry | Women Researcher Award

Pt. Ravishankar Shukla University, India

šŸ‘Øā€šŸŽ“Profiles

šŸŽ“ Early Academic Pursuits

Dr. Mamta Tripathi began her academic journey with a Bachelor of Science (B.Sc.) degree in Chemistry, Botany, and Biotechnology from G.D. Rungta College of Science & Technology, Bhilai, earning an impressive 70.88% in 2010. She then completed her Master of Science (M.Sc.) in Chemistry from Pt. Ravishankar Shukla University, Raipur, graduating as a gold medalist with a stellar 74.38% in 2012. Her academic excellence was further solidified when she secured the 1st position in the M.Sc. merit list, earning four gold medals in 2013. She also pursued a Bachelor of Education (B.Ed.) degree, achieving 79.88% in 2013, showcasing her dedication to both science and pedagogy.

šŸ§‘ā€šŸ”¬ Professional Endeavors

Dr. Tripathi's professional journey is marked by significant milestones. She served as an INSPIRE Research Scholar from 2013 to 2018 at Pt. Ravishankar Shukla University, Raipur, where she pursued her doctoral studies alongside teaching. She later worked as a Guest Lecturer at the same university in 2019-2020. Currently, she is contributing to education as a teacher at Swami Atmanand Government English Medium School, Ahiwara, Bhilai. Additionally, she has five years of teaching experience in schools, highlighting her versatility in academic roles.

šŸ“š Contributions and Research Focus

Dr. Tripathiā€™s Ph.D. thesis, titled ā€œStudies on Hydroxamic Acid Metal Complexes as Nucleic Acid Binder and Enzymatic Inhibitors,ā€ explores the biological properties of hydroxamic acid-metal complexes. Her research demonstrated groundbreaking findings, identifying DNA/RNA binding parameters of these complexes using UV-Visible Spectroscopy, Fluorescence Spectroscopy, and Molecular Docking techniques. She further investigated their enzymatic inhibition potential and cytotoxicity against MCF-7 breast cancer cells, with copper-hydroxamic acid complexes emerging as the most promising candidate.

šŸŒŸ Impact and Influence

Her research has significantly advanced understanding in the field of chemical biology, particularly in nucleic acid interactions and enzymatic inhibition. Dr. Tripathiā€™s work holds potential for future in-vivo studies and therapeutic applications, offering valuable insights into cancer treatment mechanisms.

šŸ“– Academic Cites

Dr. Tripathiā€™s dedication to research is evident in her impactful publications and recognition in the scientific community. She has received prestigious accolades, including the National Young Scientist Award (2016) and the State Young Scientist Award (2017), cementing her position as an influential researcher.

šŸ’» Technical Skills

Dr. Tripathi is proficient in a range of advanced technical techniques, including UV-Visible Spectroscopy, Fluorescence Spectroscopy, Rp-HPLC, NMR, Gel Electrophoresis, and Molecular Docking Analysis. She is adept at using computational tools like Auto Dock and Hex Software, which significantly contributed to her research findings. Her high presentation skills and computer efficiency further underscore her technical prowess.

šŸ« Teaching Experience

With over five years of teaching experience, Dr. Tripathi has demonstrated her ability to guide and mentor students at various academic levels. Her roles as an INSPIRE Research Scholar and Guest Lecturer allowed her to blend research with teaching, inspiring a new generation of learners.

šŸŒ Legacy and Future Contributions

Dr. Tripathiā€™s legacy is built on her innovative research in chemical biology and dedication to education. She is committed to advancing her work on hydroxamic acid-metal complexes, with a focus on their potential in cancer treatment. Her passion for teaching ensures she will continue to inspire and mentor future scientists, leaving a lasting impact on both academia and the scientific community.

šŸ… Awards and Recognitions

INSPIRE Fellow, financially supported by the Department of Science & Technology, India.Ā National Young Scientist Award, Indian Council of Chemists. State Young Scientist Award, Chhattisgarh Young Scientist Award. Four gold medals for academic excellence in M.Sc..

šŸ“–Notable Publications

Nucleic acid binding affinity and antioxidant activity of N-m-Tolyl-4-Chlorophenoxyacetohydroxamic acid

Authors: Khilari, R., Chauhan, S., Tripathi, M., Das, D., Sarkar, A.
Journal: Scientific Reports
Year: 2024

Binding interaction of four azo linked copper (II) complexes with Human Serum Albumin (HSA): Spectroscopic and molecular docking explorations

Authors: Tripathi, M., Chauhan, S., Princess, R., Guha, S., Sarkar, A.
Journal: Results in Chemistry
Year: 2024

Engineering the future with hydrogels: advancements in energy storage devices and biomedical technologies

Authors: Sharma, A.K., Sharma, R., Pani, B., Sarkar, A., Tripathi, M.
Journal: New Journal of Chemistry
Year: 2024

In-vitro and in-silico analysis and antitumor studies of novel Cu(II) and V(V) complexes of N-p-Tolylbenzohydroxamic acid

Authors: Tripathi, M., Thakur, Y., Syed, R., Verma, B., Pande, R.
Journal: International Journal of Biological Macromolecules
Year: 2024

Nucleic acids: Components, nomenclature, types, and protection method

Authors: Tripathi, M., Sarkar, A., Mahilang, M.
Journal: Handbook of Biomolecules: Fundamentals, Properties and Applications
Year: 2023

 

Gennadii Piavchenko | Immunohistochemistry | Best Researcher Award

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Assoc. Prof. Dr. Gennadii Piavchenko | Immunohistochemistry | Best Researcher Award

I. M. Sechenov First Moscow State Medical University, Russia

šŸ‘Øā€šŸŽ“Profiles

šŸŽ“ Early Academic Pursuits

Dr. Gennadii A. Piavchenko began his academic journey with a strong focus on medical sciences, culminating in an MD, Ph.D., and M.Sc. His early research emphasized the intersection of neuroscience, pharmacology, and histology, paving the way for his later interdisciplinary explorations. His commitment to integrating basic science with clinical applications has remained a hallmark of his academic endeavors.

šŸ¢ Professional Endeavors

Dr. Piavchenko serves as the Head of the Microscopy Lab in the Human Anatomy and Histology Department at I.M. Sechenov First Moscow State Medical University. His leadership has been instrumental in advancing the university's standing in the fields of biophotonics and neuroimaging. Beyond academia, he has collaborated with industry leaders like RWD Life Science and Retinoids Pharmaceutical Research to bridge the gap between scientific discovery and practical application.

šŸ”¬ Contributions and Research Focus

Dr. Piavchenkoā€™s research focuses on neuroimmunology, neurodegeneration, and biophotonics. His notable projects include: Development of Optical Imaging Systems for neurosurgical operations (Russian Scientific Foundation, 580K USD). Neuroimmunological Studies on HSP70 in murine models (50K USD). Investigations into mitochondrial dysfunction related to neurodegenerative diseases (1.5M USD, "Mega-grant").Ā These efforts reflect his dedication to advancing cutting-edge medical technologies and therapeutic strategies.

šŸŒ Impact and Influence

Dr. Piavchenko's work has had a profound impact on the fields of neuroscience and biophotonics. His contributions to optical imaging systems have redefined precision in neurosurgical procedures. Additionally, his interdisciplinary approach has fostered collaborations across diverse fields, amplifying the global reach of his research.

šŸ“š Academic Citations

Dr. Piavchenko has co-authored multiple high-impact publications, including books like Assessment of Mitochondrial Membrane Potential and NADH Redox State in Acute Brain Slices (Springer, 2021) and A Concise Guide to Histology (2019). His research papers and patents have been cited extensively, underscoring the significance of his scientific contributions.

šŸ› ļø Technical Skills

Dr. Piavchenko is proficient in advanced microscopy techniques, optical imaging, and neurohistological methods. His technical expertise extends to designing and utilizing laboratory stereotaxis devices, as demonstrated by his patent contributions.

šŸ‘Øā€šŸ« Teaching Experience

As an Associate Professor, Dr. Piavchenko is deeply involved in teaching and mentoring students. He has played a pivotal role in training the next generation of researchers in histology, microscopy, and neuroscience, ensuring the continuity of excellence in these fields.

šŸ† Legacy and Future Contributions

Dr. Piavchenko's legacy lies in his commitment to innovation and collaboration. By leading groundbreaking projects and fostering industry-academia partnerships, he has laid a robust foundation for future advancements. His ongoing work in optical imaging and neurodegeneration research continues to push the boundaries of medical science, ensuring his influence endures for years to come.

šŸ“–Notable Publications

  • Real-time laser speckle contrast imaging for intraoperative neurovascular blood flow assessment: animal experimental study
    • Authors: Konovalov, A., Grebenev, F., Stavtsev, D., Shumeiko, T., Eliava, S.
    • Journal: Scientific Reports
    • Year: 2024
  • Integrating Augmented Reality in Spine Surgery: Redefining Precision with New Technologies
    • Authors: De Jesus Encarnacion Ramirez, M., Chmutin, G., Nurmukhametov, R., Roa, J.C., Montemurro, N.
    • Journal: Brain Sciences
    • Year: 2024
  • Beyond life: Exploring hemodynamic patterns in postmortem mice brains
    • Authors: Sdobnov, A., Tsytsarev, V., Piavchenko, G., Bykov, A., Meglinski, I.
    • Journal: Journal of Biophotonics
    • Year: 2024
  • Advances in Dynamic Light Scattering Imaging of Blood Flow
    • Authors: Sdobnov, A., Piavchenko, G., Bykov, A., Meglinski, I.
    • Journal: Laser and Photonics Reviews
    • Year: 2024
  • Neuroglia markers expression in the cingulate and retrosplenial cortex of mice after nonseptic dose of lipopolysaccharide
    • Authors: Venediktov, A.A., Pokidova, K.S., Oganesyan, D.M., Piavchenko, G.A., Kuznetsov, S.L.
    • Journal: Sechenov Medical Journal
    • Year: 2024

 

Premnath Kumar | Electrocatalyst | Best Researcher Award

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Dr. Premnath Kumar | Electrocatalyst | Best Researcher Award

Chulalongkorn University, Thailand

šŸ‘Øā€šŸŽ“Profiles

šŸ§‘ā€šŸŽ“ Early Academic Pursuits

Dr. Premnath Kumar's academic journey began with a strong foundation in chemistry, earning a B.Sc. and an M.Sc. from Thiruvalluvar University, Tamil Nadu. His postgraduate research involved the synthesis and characterization of BiOCl/Ī±-Fe2O3 photocatalysts, marking his early interest in materials for energy applications. His academic excellence culminated in a Ph.D. in Chemistry from the same university, focusing on cost-effective, platinum-free electrocatalysts for hydrogen evolution reactions.

šŸ§‘ā€šŸ”¬ Professional Endeavors

He expanded his expertise as an International Postdoctoral Research Fellow at Chulalongkorn University, Bangkok, Thailand, from 2022 to 2024. Collaborating with leading scientists, including his mentor, Dr. Piyasan Praserthdam, he contributed to cutting-edge advancements in electrocatalysis and nanomaterials for energy conversion.

šŸ§Ŗ Research Focus and Contributions

His research emphasizes sustainable energy solutions through nanomaterials, electrocatalytic processes, and supercapacitor technology. Key contributions include:

  • Development of platinum-free catalysts for hydrogen production.
  • Investigations into nanomaterials for enhanced energy storage and conversion.
  • Promoting photocatalysis for green energy applications.

šŸŒ Impact and Influence

His work directly supports global sustainability goals by advancing affordable and efficient green energy technologies. His research findings have gained recognition for their potential to revolutionize hydrogen production and energy storage systems, with implications across academia and industry.

šŸ“š Academic Citations and Recognition

Dr. Kumar's publications have been cited extensively, reflecting the academic and practical value of his contributions to chemistry and renewable energy.

šŸ› ļø Technical Expertise

His proficiency spans analytical and electrochemical techniques, including:

  • XRD, SEM, EDX, FT-IR, UV-Vis, PL, and XPS for material characterization.
  • Advanced electrochemical methodologies like cyclic voltammetry, impedance spectroscopy, and HER/OER analysis.

šŸ‘Øā€šŸ« Teaching and Mentorship

He has played an instrumental role in mentoring students and junior researchers, sharing his knowledge in electrocatalysis and nanotechnology to inspire the next generation of chemists.

šŸŒŸ Legacy and Future Contributions

He aims to further his impact in renewable energy technologies by exploring innovative materials and processes. His dedication to green energy solutions positions him as a thought leader in chemistry and sustainable development.

šŸ“–Notable Publications

A comprehensive review and perspective of recent research developments, and accomplishments on structural-based catalysts; 1D, 2D, and 3D nanostructured electrocatalysts for hydrogen energy production

  • Authors: Kumar, P., GarcĆ­a, A., Praserthdam, S., Praserthdam, P.
  • Journal: International Journal of Hydrogen Energy
  • Year: 2024

Nonylphenol polybenzoxazines-derived nitrogen-rich porous carbon (NRPC)-supported g-C3N4/Fe3O4 nanocomposite for efficient high-performance supercapacitor application

  • Authors: Selvaraj, K., Yu, B., SpontĆ³n, M.E., Sayed, S.R.M., Kannaiyan, D.
  • Journal: Soft Matter
  • Year: 2024

Renovated FeCoP-NC nanospheres wrapped by CoP-NC nanopetals: As a tremendously effectual and robust MOF-assisted electrocatalyst for hydrogen energy production

  • Authors: Kumar, P., Maia, G., Praserthdam, S., Praserthdam, P.
  • Journal: Environmental Research
  • Year: 2024

Double role of CTAB as a surfactant and carbon source in Ni-Mo2C/GA composite: As a highly active electrocatalyst for hydrogen evolution reaction

  • Authors: Kumar, P., Arumugam, M., Maia, G., Praserthdam, S., Praserthdam, P.
  • Journal: Electrochimica Acta
  • Year: 2023

Reduced nickel on cobalt sulphide with carbon supported (Ni-CoS/C) composite material as a low-cost and efficient electrocatalyst for hydrogen evolution reaction

  • Authors: Kumar, P., Arumugam, M., Jagannathan, M., Praserthdam, S., Praserthdam, P.
  • Journal: Electrochimica Acta
  • Year: 2022

Carbon supported nickel phosphide as efficient electrocatalyst for hydrogen and oxygen evolution reactions

  • Authors: Kumar, P., Murthy, A.P., Bezerra, L.S., Maia, G., Madhavan, J.
  • Journal: International Journal of Hydrogen Energy
  • Year: 2021