Santhosh balaji | Materials Science | Best Researcher Award

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Mr. Santhosh balaji | Materials Science | Best Researcher Award

Kalasalingam university, India

Author Profile

🌟 Early Academic Pursuits: 

Santhoshbalaji M’s academic journey began with a strong foundation in physics, fueled by his innate curiosity for understanding the laws of nature. He pursued his B.Sc. in Physics at S.Vellaichamy Nadar College, under the esteemed Madurai Kamaraj University, Tamil Nadu. With a CGPA of 7.87/10, he demonstrated academic rigor and a passion for scientific inquiry.

Building on this foundation, he advanced to complete an M.Sc. in Physics (2017–2019) at the same institution, achieving a commendable CGPA of 7.27/10. These formative years laid the groundwork for his pursuit of specialized research in material science, igniting a profound interest in nanomaterials and photocatalysis. His thirst for knowledge motivated him to embrace research challenges and delve deeper into cutting-edge scientific domains.

🔬 Professional Endeavors:

Santhoshbalaji’s professional journey is marked by his ongoing pursuit of a Ph.D. in Physics at the Kalasalingam Academy of Research and Education, Tamil Nadu. With his thesis focused on surfactant and transition metal-assisted synthesis for photocatalysis, he is advancing our understanding of sustainable materials. His innovative approach combines theoretical expertise with hands-on experimentation, exploring novel synthesis techniques to address real-world environmental challenges.

As an educator and collaborator, Santhoshbalaji has honed his skills in team management, working in multidisciplinary teams to push the boundaries of scientific discovery. His professional endeavors are not confined to the lab; he actively mentors aspiring scientists, instilling in them a passion for innovation and sustainability.

🌍 Contributions and Research Focus:

Santhoshbalaji’s research revolves around nanomaterials and photocatalysis, where he employs advanced synthesis techniques to create materials with exceptional properties. His work on environmental remediation has significant implications for addressing global challenges such as water pollution and energy sustainability.

By integrating transition metals and surfactants, he is pioneering efficient photocatalytic processes for environmental cleanup, including pollutant degradation and wastewater treatment. His contributions to the field extend beyond academic research, showcasing practical applications that align with the global push for sustainability.

🏅 Accolades and Recognition: 

While his formal accolades are yet to reflect his full potential, Santhoshbalaji’s academic achievements, including consistent performance during his undergraduate and postgraduate studies, highlight his dedication. His research endeavors, characterized by originality and environmental relevance, have garnered respect and recognition within academic circles.

Santhoshbalaji’s work promises to lead to impactful publications and collaborations, elevating his status as a researcher committed to excellence. 🌟

✨ Impact and Influence: 

Santhoshbalaji’s influence extends beyond his technical expertise. By mentoring future scientists, he is shaping the next generation of innovators. His emphasis on sustainable practices inspires his peers and students to align their research goals with the pressing needs of our planet.

Through his dedication to collaborative research, he fosters a culture of shared learning and teamwork, demonstrating that the greatest scientific advancements are often the result of collective effort. 🌿

🌠 Legacy and Future Contributions: 

Santhoshbalaji envisions a future where scientific innovation and environmental responsibility go hand in hand. His commitment to sustainable materials positions him as a leader in the field of environmental remediation. In the coming years, he aims to:

  • Publish groundbreaking research on nanomaterials and their applications in energy and environmental science. 📚
  • Collaborate globally to address shared challenges, advancing the impact of his work beyond local boundaries. 🌐
  • Inspire budding researchers to think creatively and contribute to a sustainable future. 🚀

Through his unwavering dedication to material science, Santhoshbalaji M is poised to leave a lasting legacy that transcends academic achievements, driving positive change for generations to come. 🌍✨

Citations

A total of 36 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         36
  • h-index           05
  • i10-index        02

Notable Publications 

  • Title: Nitrogen-doped graphene and iron oxide nanoparticles for photocatalytic degradation
    Authors: Muthuvijayan, S., Banerjee, D., Chatterjee, S., Theivasanthi, T., Gopinath, S.C.B.
    Journal: Journal of the Taiwan Institute of Chemical Engineers
    Year: 2025.
  • Title: Chitosan-mediated tailoring of cadmium sulphide nanoparticle: Synthesis, properties, and interactive mechanisms
    Authors: Muthuvijayan, S., Manavalan, R.K., Ponraj, J.S., Gopinath, S.C.B., Theivasanthi, T.
    Journal: Process Biochemistry
    Year: 2024.
  • Title: Sodium lauryl sulphate-mediated synthesis: Unravelling the optimization path for enhanced stability and optical properties of cadmium sulphide nanoparticles
    Authors: Muthuvijayan, S., Balasubramanian, S., Theivasanthi, T., Gopinath, S.C.B.
    Journal: Process Biochemistry
    Year: 2024.
  • Title: Realization of Ti MOF/MoS2 hybrid nanostructure and their catalytic activity towards 4-nitrophenol reduction
    Authors: Dharman, R.K., Francis, B.M., Ponraj, J.S., Balasubramanian, S., Dhanabalan, S.C.
    Journal: Journal of Materials Research and Technology
    Year: 2022.
  • Title: Facile synthesis and characterisation of green luminescent carbon nanodots prepared from tender coconut water using the acid-assisted ultrasonic route
    Authors: Manoharan, P., Dhanabalan, S.C., Alagan, M., Ponraj, J.S., Somasundaram, C.K.
    Journal: Micro and Nano Letters
    Year: 2020.

Asit Baran Panda | Materials Chemistry | Best Researcher Award

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Dr. Asit Baran Panda | Materials Chemistry | Best Researcher Award

CSIR_National Metallurgical Laboratory, India

Author Profile

Early Academic Pursuits 📚

Dr. Asit Baran Panda’s academic journey reflects his unwavering passion for science, especially in chemistry and material science. His foundation was laid with a B.Sc. in Chemistry (Hons.) from Vidyasagar University in 1995, followed by an M.Sc. in Chemistry from Kanpur University in 1998. Dr. Panda’s thirst for advanced knowledge led him to the prestigious Indian Institute of Technology (IIT), Kharagpur, where he completed his Ph.D. in 2004, specializing in nanostructured materials. This robust academic foundation positioned him as a future leader in material science research.

Professional Endeavors 🌍

Dr. Panda currently serves as a Senior Principal Scientist in the Functional Materials Group (FM) of the Advanced Materials and Processes (AMP) Division at CSIR-National Metallurgical Laboratory (CSIR-NML), Jamshedpur. His role involves spearheading cutting-edge research in nanomaterials, energy storage, and environmental solutions. Over the years, he has gained recognition for his innovative work in materials science, contributing significantly to the development of sustainable technologies.

Contributions and Research Focus 🔬

Dr. Panda’s research interests span diverse areas, focusing on the design and synthesis of size, shape, and morphology-selective nanostructured materials. His pioneering efforts include:

  • Energy Conversion and Storage ⚡
    Dr. Panda has made remarkable contributions to the development of Li-ion batteries and capacitors, essential for advancing renewable energy solutions. He has also worked extensively on visible-light-driven photocatalysis for clean energy generation and water splitting to produce sustainable hydrogen fuel.
  • Environmental Remediation 🌱
    He has developed innovative nanostructures for tackling environmental pollutants, contributing to eco-friendly and sustainable solutions.
  • Heterogeneous Catalysis for Green Chemistry ♻️
    Dr. Panda’s work in designing catalysts for green chemical processes aligns with global efforts toward reducing industrial carbon footprints.
  • Inorganic Pigments 🎨
    His expertise extends to inorganic pigments, driving advancements in materials for industrial applications.

Accolades and Recognition 🏆

Dr. Panda’s groundbreaking research has earned him numerous accolades and recognition. As a senior scientist at a leading national research institution, his contributions are widely acknowledged in academic and industrial circles. His innovations have significantly impacted material science and its applications in energy, environment, and industry.

Impact and Influence 🌟

Dr. Panda’s work has had a profound impact on the field of nanomaterials. His advancements in energy storage have the potential to revolutionize the renewable energy sector, enabling efficient and sustainable solutions. Moreover, his contributions to environmental remediation and green chemistry underscore his commitment to addressing pressing global challenges.

Legacy and Future Contributions 🌐

As a researcher, mentor, and innovator, Dr. Panda continues to inspire the next generation of scientists. His vision for creating sustainable and efficient materials aligns with global priorities for clean energy and environmental conservation. Future endeavors may include:

  • Expanding research in graphene-based nanomaterials for multifaceted applications.
  • Developing next-generation materials for solar energy harvesting.
  • Collaborating globally to tackle challenges in environmental sustainability and energy efficiency.

Citations

A total of 7434 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        7434
  • h-index          50
  • i10-index       114

Notable Publications

  • Stimulus-Responsive, Biodegradable, Biocompatible, Covalently Cross-Linked Hydrogel Based on Dextrin and Poly(N-isopropylacrylamide) for in Vitro/in Vivo
    • Authors: D. Das, P. Ghosh, A. Ghosh, C. Haldar, S. Dhara, A. B. Panda, S. Pal
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2015.
  • Dextrin and Poly(Acrylic Acid)-Based Biodegradable, Non-Cytotoxic, Chemically Cross-Linked Hydrogel for Sustained Release of Ornidazole and Ciprofloxacin
    • Authors: D. Das, P. Ghosh, S. Dhara, A. B. Panda, S. Pal
    • Journal: ACS Applied Materials & Interfaces
    • Year: 2015.
  • Dextrin Cross Linked with Poly(HEMA): A Novel Hydrogel for Colon-Specific Delivery of Ornidazole
    • Authors: D. Das, R. Das, P. Ghosh, S. Dhara, A. B. Panda, S. Pal
    • Journal: RSC Advances
    • Year: 2013.
  • Facile Low-Temperature Synthesis of Ceria and Samarium-Doped Ceria Nanoparticles and Catalytic Allylic Oxidation of Cyclohexene
    • Authors: N. Sutradhar, A. Sinhamahapatra, S. Pahari, M. Jayachandran, A. B. Panda
    • Journal: The Journal of Physical Chemistry C
    • Year: 2011.
  • Mesoporous Zirconium Phosphate Catalyzed Reactions: Synthesis of Industrially Important Chemicals in Solvent-Free Conditions
    • Authors: A. Sinhamahapatra, N. Sutradhar, B. Roy, A. Tarafdar, H. C. Bajaj, A. B. Panda
    • Journal: Applied Catalysis A: General
    • Year: 2010.

Shabeeba Pilathottathil | Materials Science | Best Researcher Award

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Dr. Shabeeba Pilathottathil | Materials Science | Best Researcher Award

Malabar College of Advanced Studies-Vengara, India

Author Profile

Early Academic Pursuits 🌱📚

Dr. Shabeeba. P’s academic journey is a testament to her dedication and passion for learning. Hailing from Chelari, Kerala, she displayed academic brilliance from her early years, consistently securing first-class grades in all her educational milestones. Her higher secondary and secondary education under the Kerala State Board laid a solid foundation for her scientific pursuits.

In 2006, she earned her B.Sc. in Physics from M.A.S College, Valanchery, affiliated with Calicut University. Her academic zeal led her to pursue an M.Sc. in Electronics at M.E.S College, Cochin, under M.G. University, where she graduated with first-class honors in 2008. Driven by a thirst for advanced research, she embarked on her doctoral studies at the National Institute of Electronics & Information Technology, Calicut, in collaboration with the Department of Physics at the University of Calicut. Her Ph.D. research, conducted from 2015 to 2020, revolved around the development of ionogel electrolyte incorporated carbonaceous supercapacitors, showcasing her expertise in cutting-edge energy storage technologies.

Professional Endeavors 💼🔬

Dr. Shabeeba’s career trajectory reflects her versatility and commitment to both academia and industry. She began her professional journey as a software engineer at Cybrosys Techno Solutions Pvt. Ltd., Kinfra, Calicut, where she honed her technical and problem-solving skills for 1.5 years.

Her passion for teaching and shaping young minds led her to serve as a teaching faculty at Luminous International Academy, Thazhe Kozhichena, Kottakkal, for two years. Currently, she holds the position of Assistant Professor in the Department of Electronics at Malabar College of Advanced Studies, Vengara. In this role, she is actively involved in imparting knowledge, mentoring students, and fostering a spirit of innovation in electronics and related disciplines.

Contributions and Research Focus 🔍⚡

Dr. Shabeeba’s research is centered on advancing energy storage solutions. Her work on ionogel electrolytes incorporated with carbonaceous supercapacitors addresses the growing demand for efficient, sustainable, and high-performance energy devices. By integrating innovative materials and cutting-edge techniques, her contributions aim to enhance the efficiency and durability of supercapacitors, which play a pivotal role in renewable energy systems and portable electronics.

Her research findings have not only enriched the field of material science but also opened new avenues for practical applications in energy storage technology. Her interdisciplinary approach bridges the gap between physics, electronics, and material engineering, underscoring her role as a visionary in her domain.

Accolades and Recognition 🏆✨

Throughout her academic and professional journey, Dr. Shabeeba has been recognized for her unwavering commitment to excellence. From achieving first-class distinctions in her undergraduate and postgraduate studies to completing her doctoral research in a highly specialized field, her achievements reflect her relentless pursuit of knowledge and innovation.

Her expertise in electronics and energy storage has positioned her as a valuable mentor and educator, earning respect and admiration from her peers and students alike.

Impact and Influence 🌟👩‍🏫

Dr. Shabeeba’s contributions extend beyond research and academia. As a mentor, she has inspired countless students to explore the vast potential of electronics and material science. Her ability to simplify complex concepts and foster curiosity has made her a sought-after educator.

In the industry, her tenure as a software engineer showcased her ability to apply theoretical knowledge to real-world challenges, adding practical dimensions to her expertise. This blend of academic and industrial experience enhances her teaching, equipping students with skills that bridge classroom learning and professional applications.

Legacy and Future Contributions 🌍🔭

Dr. Shabeeba. P’s legacy is built on her dedication to innovation, education, and societal impact. As she continues her journey at Malabar College of Advanced Studies, she aims to:

  • Advance her research in energy storage and sustainable materials.
  • Mentor the next generation of scientists and engineers.
  • Foster collaborations with industry and academia to drive technological advancements.

Her vision is to contribute to a sustainable future through cutting-edge research and to empower students with the knowledge and skills to address global challenges.

Citations

A total of 157 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        157
  • h-index          11
  • i10-index       09

Notable Publications 

  • Boosting ion dynamics by developing graphitic carbon Nitride/Carbon hybrid electrode materials for ionogel supercapacitor
    Authors: Pilathottathil, S., Kavil, J., Shahin Thayyil, M.
    Journal: Materials Science and Engineering: B
    Year: 2022.
  • MoS2 incorporated carbon allotropes (activated carbon, graphene, MWCNT) as electrodes in symmetric supercapacitors
    Authors: Pilathottathil, S., Kavil, J., Thayyil, M.S.
    Journal: Journal of the Indian Chemical Society
    Year: 2021.
  • PMMA-RTIL electrolyte for high-energy supercapacitors: A comparison of different anions
    Authors: Shabeeba, P., Thayyil, M.S., Pillai, M.P., Thasneema, K.K.
    Journal: Journal of Molecular Liquids
    Year: 2019.
  • Role of a Printed Circuit Board Copper Clad Current Collector in Supercapacitor Application
    Authors: Pilathottathil, S., Thayyil, M.S., Pillai, M.P., Jemshihas, A.P.
    Journal: Journal of Electronic Materials
    Year: 2019.
  • Development of 2D nano heterostructures based on g-C₃N₄ and flower-shaped MoS₂ as electrode in symmetric supercapacitor device
    Authors: Kavil, J., Pilathottathil, S., Thayyil, M.S., Periyat, P.
    Journal: Nano-Structures and Nano-Objects
    Year: 2019.

Mohd Arsalan | Material Science | Best Researcher Award

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Dr. Mohd Arsalan | Material Science | Best Researcher Award

Aligarh Muslim University, India

Author Profile

Early Academic Pursuits 🌟

Mohd Arsalan’s academic journey began with an unwavering commitment to excellence in the field of chemistry. His passion for science was evident from his early years at Beenapara Inter College, Azamgarh, where he completed his matriculation in 2002, excelling in core subjects like Science, Mathematics, and languages such as Hindi, Urdu, and Arabic. Continuing his pursuit of knowledge, he graduated in 2004 with an intermediate education in Physics, Chemistry, and Biology, laying a strong foundation for his future endeavors.

His higher education took a remarkable turn when he joined the prestigious Aligarh Muslim University (AMU), known for its rich academic heritage. Arsalan earned his Bachelor of Science in Chemistry in 2007, marking the beginning of a transformative journey. This was followed by his Master of Science in Chemistry in 2009, during which he honed his expertise in theoretical and practical aspects of the discipline. His drive for academic excellence led him to complete an M.Phil in Chemistry in 2012 and culminated in his earning a Ph.D. in Chemistry in 2015 from the Department of Chemistry, AMU. His doctoral work stands as a testament to his intellectual rigor and dedication. 📚🎓

Professional Endeavors and Expertise 🚀

With a robust academic background, Mohd Arsalan embarked on a professional journey that merged research with practical applications. His expertise spans diverse domains, including polymeric-inorganic composite materials, membrane technology, and wastewater engineering. These areas reflect his commitment to addressing pressing environmental issues and advancing material science.

Arsalan’s research in water desalination and adsorption technology underscores his focus on solving global challenges related to water scarcity and pollution. His proficiency in synthesizing materials, characterizing them, and applying them in real-world scenarios has placed him at the forefront of innovation. His work often integrates environmental science with advanced separation processes, enabling efficient removal of organic and inorganic pollutants.

He is also adept at composite membrane formation and electrochemical studies, exploring chemical kinetics to drive solutions in wastewater management. Arsalan’s interdisciplinary approach ensures his contributions remain impactful and relevant. 🌍💧

Contributions and Research Focus 🔬

Arsalan has dedicated his career to advancing scientific understanding and developing sustainable technologies. His focus on material synthesis and the creation of composite membranes has led to significant advancements in membrane technology. These membranes are instrumental in purifying water, desalinating seawater, and treating wastewater.

Through meticulous research, he has developed innovative solutions for removing contaminants, including organic and inorganic pollutants, from water systems. His studies in chemical kinetics have provided valuable insights into the reaction mechanisms that drive these purification processes.

Arsalan’s expertise in wastewater engineering has also led to sustainable approaches for industrial waste management. His ability to blend theory with practical applications has made his work highly valuable in academia and industry. 🌱🔗

Accolades and Recognition 🏆

Throughout his career, Mohd Arsalan has been acknowledged for his contributions to science and technology. His research has received recognition from peers and institutions, earning him accolades for his innovative approaches to environmental challenges.

His ability to synthesize polymeric-inorganic composite materials with exceptional properties has been lauded for its practical applications in water and environmental engineering. Arsalan’s scholarly publications, invited talks, and conference presentations showcase his leadership in the scientific community. ✨📜

Impact and Influence 🌐

Arsalan’s work has had a far-reaching impact on academia and industry, influencing practices in water treatment and environmental management. His research has paved the way for cost-effective and sustainable solutions to water pollution, addressing a critical global concern.

By mentoring students and collaborating with other researchers, he continues to inspire the next generation of scientists. His interdisciplinary work bridges chemistry, environmental science, and engineering, ensuring its broad applicability and relevance. 🌟🤝

Legacy and Future Contributions 🔮

Mohd Arsalan’s legacy lies in his contributions to creating sustainable technologies that address environmental challenges. His work in wastewater engineering and membrane technology is a testament to his commitment to innovation.

Looking ahead, Arsalan aims to expand his research into cutting-edge areas like nanotechnology and renewable energy integration in water treatment processes. His vision for a sustainable future drives his relentless pursuit of knowledge and solutions. As an academic and professional, he continues to make a lasting impact on science and society. 🌍💡

In summary, Mohd Arsalan’s journey, marked by academic brilliance, innovative research, and impactful contributions, serves as an inspiration to aspiring scientists. His work is a beacon of hope for a sustainable future, addressing critical challenges with science and ingenuity. ✨

Citations

A total of 112 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        112
  • h-index          19
  • i10-index       06

Notable Publications 

  • Title: Synthesis of Polyvinyl Chloride-Based Zirconium Molybdophosphate Composite Membrane: An Assessment of Experimental and Theoretical Approaches through Electrochemical Parameters
    Authors: Zehra, A., Arsalan, M., Rafiuddin
    Journal: Journal of Membrane Science and Research, 2023.
  • Title: Preparation and characterization of polyvinyl chloride-based nickel phosphate ion-selective membrane and its application for removal of ions through water bodies
    Authors: Arsalan, M., Zehra, A., Khan, M.M.A., Rafiuddin
    Journal: Groundwater for Sustainable Development, 2019.
  • Title: Synthesis and characterization of Co₃(PO₄)₂ and Ni₃(PO₄)₂ composite membranes based on PVC: A comparative electrochemical study through aqueous electrolyte solutions
    Authors: Arsalan, M., Alam, F., Khan, I., Oves, M.
    Journal: Journal of Membrane Science and Research, 2018.

Santanu Konwar | Physics | Best Researcher Award

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Dr. Santanu Konwar | Physics | Best Researcher Award

Abhayapuri College, India

Author Profile

Early Academic Pursuits 📚

Dr. Santanu Konwar’s academic journey reflects a deep passion for the field of Physics, beginning from his schooling days at Jawahar Navodaya Vidyalaya Bishnupur in Dhemaji, Assam, where he laid the foundation for his scientific curiosity. His early exposure to the natural sciences ignited a passion for exploring the fundamental aspects of physics. After completing his schooling in 2007, Dr. Konwar went on to pursue a B.Sc. in Physics from Silapathar Science College, affiliated with Dibrigarh University, Assam. Graduating in 2011, he built upon his strong academic foundation, progressing towards a M.Sc. in Physics from Gauhati University, which he completed in 2013.

His academic excellence earned him a prestigious position in the Joint CSIR-UGC NET-JRF exam in Physical Sciences in 2012, which set the stage for his doctoral research. Dr. Konwar further honed his skills and knowledge at the Indian Institute of Technology Guwahati (IIT Guwahati), where he pursued his Ph.D. in Physics. He earned his Ph.D. degree in November 2019, conducting in-depth research in his area of expertise, marking a significant milestone in his academic career.

Professional Endeavors 🏫

Dr. Konwar’s professional career began in 2019 when he joined Indian Institute of Information Technology Guwahati as a Guest Faculty in Physics. Here, he shared his extensive knowledge and research experience with students, contributing to their academic growth. His contributions to teaching were well-received, which ultimately led to his position at Abhayapuri College, Bongaigaon, Assam, where he serves as an Assistant Professor in the Department of Physics since March 2020.

At Abhayapuri College, Dr. Konwar has been instrumental in shaping the academic structure of the physics department, offering insightful guidance to students while also engaging in various academic and extracurricular activities. His teaching methodology emphasizes the importance of understanding theoretical concepts and applying them to real-world problems, enriching the learning experience for his students.

Contributions and Research Focus 🔬

Dr. Konwar’s research interests primarily lie in Condensed Matter Physics and Nanotechnology. His doctoral research at IIT Guwahati focused on exploring advanced materials, contributing significantly to the development of new theoretical models and experimental techniques. Through his research, Dr. Konwar aims to bridge the gap between theoretical physics and practical applications, especially in the fields of nanomaterials, semiconductors, and quantum computing.

One of his significant research contributions includes studying the optical and electrical properties of nanomaterials, an area that holds potential for the development of new materials for advanced technology applications. By exploring these properties at the atomic level, Dr. Konwar’s research could pave the way for the development of next-generation devices in fields like electronics, photovoltaics, and sensors.

Accolades and Recognition 🏅

Throughout his academic journey, Dr. Konwar has earned recognition for his contributions to the field of physics. His doctoral research earned him accolades within the academic community, with his work being featured in several national and international seminars and conferences. The CSIR-UGC NET-JRF qualification, an esteemed recognition in the field of physics, further solidified his academic credentials.

Moreover, his teaching methodology and commitment to improving the academic framework at Abhayapuri College have earned him respect and recognition from both students and faculty members. His ability to blend theoretical knowledge with practical applications has made him a sought-after educator in his institution.

Impact and Influence 🌍

Dr. Konwar’s influence extends beyond the classroom. As an educator, he has inspired a generation of students to pursue careers in physics and scientific research. His focus on research-driven teaching has helped students understand the real-world applications of physics and how it impacts various technological advancements. By guiding students through complex concepts, Dr. Konwar has made significant strides in elevating the academic standard of Abhayapuri College.

His research work has not only contributed to academic literature but also enhanced the technological understanding of materials and their properties, influencing research in nanotechnology and advanced materials. His contributions to these fields continue to impact both the academic community and the broader technological landscape.

Legacy and Future Contributions 🔮

Looking to the future, Dr. Konwar’s legacy will be defined by his commitment to advancing scientific research and education. His research continues to evolve, and he aims to contribute to cutting-edge developments in the field of nanotechnology and quantum physics. As he progresses in his career, Dr. Konwar aspires to establish collaborative research networks with leading research institutions and industries to further enhance the impact of his work.

His long-term goal is to develop innovative nanomaterials that could have applications in energy-efficient technologies, medical devices, and environmental sustainability. Dr. Konwar also aims to foster a research-driven academic culture at Abhayapuri College by mentoring young students and guiding them toward careers in science and technology.

Conclusion 🎓

Dr. Santanu Konwar’s academic and professional journey reflects his dedication to the advancement of Physics through both research and education. His work in Condensed Matter Physics and Nanotechnology, coupled with his outstanding contributions as an educator, places him in a prime position to continue shaping the future of scientific research and academic excellence. With a firm commitment to his students and the broader scientific community, Dr. Konwar is poised to leave a lasting legacy in the field of Physics.

Citations

A total of 53 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        53
  • h-index          17
  • i10-index       04

Notable Publications 

Astigmatic Defocus Sensor: Its Performance and Optimization
Author: S. Konwar
Journal: Journal of Optics (India), 2024.

Astigmatic Lens Approach of Defocus Measurement Using Computer Generated Hologram
Authors: S. Konwar, N. Sherpa
Journal: Optik, 2024, 309, 171873.

Holographic Defocus Sensor: Astigmatic Lens Approach
Author: S. Konwar
Conference: 2023 IEEE Workshop on Recent Advances in Photonics (WRAP 2023), 2023.

Fast and Efficient Wavefront Estimation Algorithm Using Slope Values in Zonal Wavefront Sensor
Authors: N. Kumar, S.S.G. Buddha, P. Choudhury, K.S. Malik, S. Konwar
Conference: 2023 IEEE Workshop on Recent Advances in Photonics (WRAP 2023), 2023.

Subtraction Microscopy Using Aberrated PSFs for Image Contrast Enhancement
Authors: S.S.G. Buddha, N. Kumar, K.S. Malik, S. Konwar
Conference: 2023 IEEE Workshop on Recent Advances in Photonics (WRAP 2023), 2023.

Praveer Sihota | Materials Science | Best Researcher Award

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Dr. Praveer Sihota | Materials Science | Best Researcher Award

University Medical Center Hamburg, Germany, India

Author Profile

Early Academic Pursuits 🎓✨

Dr. Praveer Sihota’s journey into the fascinating realm of biomedical engineering began with a robust academic foundation. Completing his Bachelor of Engineering in Biomedical Engineering from Rajiv Gandhi Technical University, Bhopal (2006-2010), he achieved a commendable score of 73.5%. Building on this, he pursued a Master of Technology in Biomedical Engineering at MIT, Manipal University, Karnataka (2011-2013), earning an impressive CGPA of 8.14/10.

His academic progression culminated in a Ph.D. in Biomedical Engineering from the prestigious Indian Institute of Technology Ropar (2015-2021). His doctoral research not only expanded the boundaries of knowledge in bone characterization but also earned him the Best PhD Thesis of the Year 2021, a testament to his groundbreaking work. 📜🏆

Professional Endeavors 💼🔬

Dr. Sihota’s professional journey reflects his dedication to exploring biomedical engineering and bone health. Early in his career, he honed his skills as an M.Tech Trainee in Bioinstrumentation at CSIR-CSIO Chandigarh (2012-2013). He then advanced to roles such as Research Fellow in Biostatistics at IIT Mandi (2013-2014) and in Endocrinology at PGIMER Chandigarh (2015).

Notably, as a Project Assistant at IIT Ropar (2021), he delved into bone mechanical testing. Currently, Dr. Sihota holds the prestigious Alexander von Humboldt Fellowship as a Post-doctoral Research Fellow in the Department of Osteology and Biomechanics (IOBM), University Medical Center Hamburg-Eppendorf, Germany (2022-2025). His work focuses on the multi-scale assessment of bone quality, furthering insights into metabolic bone diseases. 🌍🔍

Contributions and Research Focus 🧬🛠️

Dr. Sihota’s research delves into the multiscale characterization of bone, emphasizing metabolic disorders like type 2 diabetes, obesity, and osteoporosis. His studies on the effects of advanced glycation end products and glucocorticoids reveal their impact on bone material and mechanical properties, mineralization, collagen quality, and skeletal fragility.

By leveraging clinical cohorts and animal models, Dr. Sihota investigates the underlying mechanisms of pathological bone changes, offering critical insights into fracture risks. His work stands as a beacon for developing diagnostic tools and treatments to combat fragility fractures, enhancing the quality of life for individuals with metabolic bone diseases. 🩺🦵

Accolades and Recognition 🌟🏅

Dr. Sihota’s exemplary contributions have garnered accolades, with his Best PhD Thesis of the Year 2021 highlighting his innovative approach and dedication. Being selected as an Alexander von Humboldt Fellow is another significant milestone, reflecting his status as a leading researcher in his field.

Impact and Influence 🌍📈

Dr. Sihota’s work has left a profound impact on both academic and clinical realms. By integrating engineering principles with medical science, he addresses critical challenges in bone health. His research findings have implications for clinicians, researchers, and healthcare policymakers, shaping strategies to prevent and manage bone fragility.

Legacy and Future Contributions 🔮🚀

Dr. Sihota’s legacy is rooted in his commitment to advancing biomedical engineering. Looking ahead, he aims to expand the frontiers of bone health research, exploring new diagnostic tools and innovative treatments for metabolic bone diseases. His vision encompasses fostering interdisciplinary collaboration and mentoring the next generation of researchers.

With a career characterized by excellence, innovation, and compassion, Dr. Praveer Sihota continues to inspire and contribute significantly to the global scientific community. His journey exemplifies the power of perseverance and intellectual curiosity, paving the way for a healthier future. 🌟👨‍🔬

Citations

A total of 315 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         315
  • h-index           22
  • i10-index        10

Notable Publications 

  • Bone-seeking tumor cells alter bone material quality parameters on the nanoscale in mice
    • Authors: Krug, J., Plumeyer, C., Davydok, A., Fiedler, I.A.K., Jähn-Rickert, K.
    • Journal: Biomaterials Advances
    • Year: 2025.
  • Osteomodulin deficiency in mice causes a specific reduction of transversal cortical bone size
    • Authors: Zhao, W., von Kroge, S., Jadzic, J., Schinke, T., Yorgan, T.A.
    • Journal: Journal of Bone and Mineral Research
    • Year: 2024.
  • Lower microhardness along with less heterogeneous mineralization in the femoral neck of individuals with type 2 diabetes mellitus indicates higher fracture risk
    • Authors: Cirovic, A., Schmidt, F.N., Vujacic, M., Busse, B., Milovanovic, P.
    • Journal: JBMR Plus
    • Year: 2024.
  • Type 2 diabetes alters the viscoelastic behavior and macromolecular composition of vertebra
    • Authors: Mehta, D., Sihota, P., Tikoo, K., Kumar, S., Kumar, N.
    • Journal: Bone Reports
    • Year: 2023.
  • The multiscale characterization and constitutive modeling of healthy and type 2 diabetes mellitus Sprague Dawley rat skin
    • Authors: Dwivedi, K.K., Lakhani, P., Sihota, P., Kumar, S., Kumar, N.
    • Journal: Acta Biomaterialia
    • Year: 2023.

Madhavi Dalsaniya | Materials Science | Best Researcher Award

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Ms. Madhavi Dalsaniya | Materials Science | Best Researcher Award

Warsaw University of Technology, India

Author Profile

Early Academic Pursuits 🎓

Madhavi H. Dalsaniya’s academic journey is a testament to her dedication and passion for the field of material science. Her formative years in education began at St. Francis High School in Jamnagar, Gujarat, India, where she achieved Distinction in her Secondary Education (2011). This early academic success paved the way for her further pursuit of knowledge in the field of Physics. Madhavi continued her academic endeavors at Sunrise School in Jamnagar, where she completed her Higher Secondary Education in 2013, securing First Class. With a solid foundation in physics, she pursued her undergraduate studies at The Maharaja Sayajirao University of Baroda (MSU), Vadodara, Gujarat, where she earned a B.Sc. in Physics in 2016, finishing with Second Class.Her strong academic performance led her to pursue a Master’s degree in Physics at the same institution, The Maharaja Sayajirao University of Baroda, where she graduated in 2018 with First Class honors. This period of advanced studies sparked her growing interest in Material Science, which later became the focal point of her career. It was during her Master’s that she developed a keen interest in the properties of materials and their potential applications, setting the stage for her future academic endeavors.

Professional Endeavors and Research Focus 🔬

Madhavi H. Dalsaniya’s professional journey has been marked by a steadfast commitment to the study and application of material science. Currently, she is pursuing her Ph.D. in Material Science at the prestigious Warsaw University of Technology in Warszawa, Poland, a position she has held since October 2020. The focus of her doctoral research is on the properties and applications of materials in various fields, contributing to the growing body of knowledge in material science. Her work involves exploring new materials with enhanced properties and understanding their structural characteristics at the atomic and molecular levels.As a doctoral student, Madhavi has not only been working diligently on her research but also actively engaging with the scientific community through academic conferences, seminars, and workshops. She has established herself as a budding researcher in the field, gaining valuable insights and collaborating with experts in the field of material science. Her research contributions focus on novel materials that can be used in a wide array of industries, including electronics, nanotechnology, and renewable energy.

Contributions and Research Focus 🌍

Madhavi’s research is making significant strides in the field of material science. She focuses on advancing the understanding of material properties, which can potentially lead to groundbreaking advancements in various technological applications. Her research encompasses a range of topics, including the study of nanomaterials, their synthesis, characterization, and potential applications in energy storage and conversion systems. By investigating the unique properties of different materials at the microscopic level, Madhavi aims to contribute to the development of more efficient and sustainable materials for future technologies.One of her key research areas is the exploration of new materials with enhanced conductivity and stability for use in electronic devices. She is also interested in the role of nanomaterials in renewable energy, including solar cells and energy storage devices. Through her work, Madhavi aims to push the boundaries of material science and contribute to the creation of more sustainable and efficient solutions for contemporary challenges.

Accolades and Recognition 🏆

Although still early in her career, Madhavi has already earned recognition for her academic achievements and research contributions. Her dedication to the field of material science has not gone unnoticed, and she has been acknowledged for her outstanding performance as a doctoral student. The first-class honors she received during her M.Sc. program laid the foundation for her future academic success. As a Ph.D. student, Madhavi has been invited to present her research at several international conferences, where her work has garnered attention for its originality and scientific rigor.Her involvement in the research community and her commitment to advancing material science have also led to opportunities for collaboration with prominent researchers in her field. Her work has contributed to expanding the knowledge base surrounding the application of nanomaterials in various industries, solidifying her reputation as a promising researcher.

Impact and Influence 🌟

Madhavi H. Dalsaniya’s work is poised to make a lasting impact on the field of material science. By advancing our understanding of the properties of materials, her research is expected to lead to innovations that will drive the development of new technologies. In particular, her exploration of nanomaterials and their potential applications in renewable energy and electronics could play a significant role in addressing some of the world’s most pressing challenges, such as energy storage and climate change.Her influence extends beyond her research contributions, as she serves as a role model for aspiring scientists and researchers, particularly women in STEM fields. Madhavi’s academic journey and perseverance in pursuing advanced research serve as an inspiration to others who seek to contribute to scientific advancements and make a meaningful impact on society.

Legacy and Future Contributions 🌱

Looking toward the future, Madhavi H. Dalsaniya is on track to make significant contributions to the world of material science. As she continues her Ph.D. research, her work will undoubtedly leave a lasting legacy in the field. She aims to continue exploring the applications of new materials in the realms of energy, electronics, and sustainability. The potential for her research to shape future technologies is immense, and she is well-positioned to be a leading figure in the development of novel materials that address global challenges.Madhavi’s commitment to advancing material science, coupled with her passion for research and innovation, ensures that her future contributions will have a profound impact on both the scientific community and society at large. As she progresses in her academic career, her work is expected to inspire future generations of scientists and engineers, making her a key figure in the evolution of material science. 🌍🔬

Citations

A total of 106 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         106
  • h-index           12
  • i10-index        05

Notable Publications 

  • Title: Pressure-Dependent Thermal and Mechanical Behaviour of a Molecular Crystal of Bromine
    Authors: Dalsaniya, M.H., Upadhyay, D., Patel, P., Kurzydłowski, K.J., Kurzydłowski, D.
    Journal: Molecules
    Year: 2024.
  • Title: Exploration of Si-N Compounds as High Energy Density Materials
    Authors: Patel, P., Patel, S., Dalsaniya, M.H., Kurzydłowski, K.J., Jha, P.K.
    Journal: Physical Chemistry Chemical Physics
    Year: 2024.
  • Title: High-Pressure Stabilization of Open-Shell Bromine Fluorides
    Authors: Dalsaniya, M.H., Upadhyay, D., Jan Kurzydłowski, K., Kurzydłowski, D.
    Journal: Physical Chemistry Chemical Physics
    Year: 2023.
  • Title: A Density Functional Theory Study on the Assessment of α-CN and α-CP Monolayers as Anode Material in Li-Ion Batteries
    Authors: Patel, P., Patel, S., Chodvadiya, D., Kurzydłowski, K.J., Jha, P.K.
    Journal: Journal of Energy Storage
    Year: 2023.
  • Title: Defects and Doping Engineered Two-Dimensional o-B2N2 for Hydrogen Evolution Reaction Catalyst: Insights from DFT Simulation
    Authors: Chodvadiya, D., Dalsaniya, M.H., Som, N.N., Kurzydłowski, K.J., Jha, P.K.
    Journal: International Journal of Hydrogen Energy
    Year: 2023.

KM Rakhi | Materials Science | Best Researcher Award

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Ms. KM Rakhi | Materials Science | Best Researcher Award

Indian Institute of Technology, Ropar, India

Author Profile

Early Academic Pursuits 🎓

Dr. KM Rakhi’s academic journey began with a Bachelor’s degree in Physics, which she completed at D.A.V College, Muzaffarnagar, affiliated with CCS University, Meerut, India, in July 2013. With a strong academic record and a passion for the sciences, she achieved a notable score of 76.7%, which marked the beginning of her journey into the intricate world of physics. Building on her undergraduate foundation, Dr. Rakhi pursued a Master of Science in Physics, graduating with a commendable CGPA of 72.3% in July 2015. This academic path enabled her to gain insights into advanced physics concepts and developed her interest in experimental research, particularly in the realm of condensed matter physics. In 2019, she joined the prestigious Indian Institute of Technology (IIT) Ropar as a PhD candidate, embarking on research in Experimental Condensed Matter Physics under the guidance of eminent faculty members, which culminated in her receiving her PhD in July 2024.

Professional Endeavors 🔬

Dr. Rakhi’s professional journey at IIT Ropar has been marked by extensive teaching and laboratory experience alongside her research. She contributed as a teaching assistant, offering practical training to undergraduate and postgraduate students in various physics courses. Her teaching portfolio spans multiple terms from 2019 to 2022, with courses such as Physics Laboratory (PH 102), Electronics Lab (PH 410), Preparatory Physics (PH 001), and Numerical Methods and Programming (PH 513 and PH 605). Through this hands-on teaching, she shared her knowledge of ion-solid interactions and nanoscale patterning with her students, providing them with a comprehensive and experimental understanding of physics.

Contributions and Research Focus 🔍

At the core of Dr. Rakhi’s work lies her fascination with ion-induced modifications and nanostructuring of solid surfaces. Her primary research explores how energetic ions interact with solid surfaces, creating unique surface morphologies and nanostructures. The study of these nanoscale surface patterns is essential for developing next-generation materials with customized surface properties. Dr. Rakhi’s research examines both the kinetic morphology of surfaces and the dynamics of self-organization of patterns at the nanoscale. These findings aim to contribute to the field by uncovering new pattern scenarios that could intrigue theoretical researchers and expand the fundamental understanding of surface structures. Her goal is to utilize these insights for practical applications, such as in advanced materials engineering where controlled nanoscale patterning can yield materials with exceptional properties in electronics, optics, and catalysis.

Accolades and Recognition 🏅

Dr. Rakhi’s academic rigor and dedicated research have earned her respect and recognition within her academic community. As a Senior Research Fellow in the Department of Physics at IIT Ropar, she has demonstrated a commitment to excellence, evident through her publications, presentations, and contributions to the institute. She has also been active on platforms like ResearchGate, where her research findings and insights contribute to a global dialogue among scholars and practitioners in condensed matter physics and nanotechnology. Through her involvement in academia and research, she has established herself as a promising researcher in ion-solid interaction studies, with her work attracting the attention of peers both within India and internationally.

Impact and Influence 🌍

Dr. Rakhi’s work stands out due to its pioneering exploration of random kinetic morphology and the self-organization of nanoscale surface structures. By probing the intricate patterns that emerge from ion irradiation, her research offers insights that could lead to breakthroughs in controlling and harnessing nanostructured surfaces for high-tech applications. Her influence extends to her students as well, whom she mentors in laboratory and course settings, fostering their curiosity and encouraging the next generation of physicists and material scientists. Her teaching in courses such as Physics Laboratory and Preparatory Physics provides a hands-on learning experience that imparts practical knowledge essential for understanding complex physics concepts.

Legacy and Future Contributions 🌟

Looking ahead, Dr. Rakhi’s contributions to ion-solid interactions and nanoscale patterning have the potential to set a foundation for further advancements in materials science and nanotechnology. Her work on controlled nanoscale structuring could be instrumental in fields like biotechnology, electronics, and energy storage, where the ability to design and manipulate surfaces at the atomic level opens new doors for innovation. She envisions further developing techniques to control surface morphology with even greater precision, which could lead to more practical applications and collaborations across disciplines.As Dr. Rakhi continues her journey in research, she is poised to leave an impactful legacy in experimental condensed matter physics. Her commitment to bridging experimental findings with theoretical insights will likely fuel future collaborations with researchers across the globe. Dr. Rakhi’s research not only adds to the scientific knowledge in her field but also promises to be a cornerstone for future discoveries, inspiring scientists, educators, and students alike to delve deeper into the fascinating world of nanoscale science and materials engineering.

Citations

A total of 19 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        19
  • h-index           6
  • i10-index        2

Notable Publications 

  • Title: “Nanopatterning Induced Si Doping in Amorphous Ga₂O₃ for Enhanced Electrical Properties and Ultra-Fast Photodetection”
    Authors: Kaur, D., Rakhi, Posti, R., Sarkar, S., Kumar, M.
    Journal: Small
    Year: 2024.
  • Title: “Prolonged pattern coarsening in ion irradiated swinging Si substrates”
    Authors: Rakhi, Sarkar, S.
    Journal: Vacuum
    Year: 2024.
  • Title: “Impact of intermittent sputtering on the ordering of triangular surface topography”
    Authors: Rakhi, Sarkar, S.
    Journal: Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms
    Year: 2024.
  • Title: “Towards ordered Si surface nanostructuring: role of an intermittent ion beam irradiation approach”
    Authors: Rakhi, Muñoz-García, J., Cuerno, R., Sarkar, S.
    Journal: Physica Scripta
    Year: 2023.
  • Title: “Abrupt pattern transitions in argon ion bombarded swinging Si substrates”
    Authors: Rakhi, Sarkar, S.
    Journal: Physical Review B
    Year: 2022.

Dibyendu Sekhar Bag | Materials Science | Outstanding Scientist Award

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Dr. Dibyendu Sekhar Bag | Materials Science | Outstanding Scientist Award

Defence Materials and Stores Research and Development Establishment (DMSRDE), DRDO, India

Author Profile

Early Academic Pursuits 🎓📚

Dr. Dibyendu Sekhar Bag embarked on a rigorous academic journey that laid a strong foundation for his scientific pursuits and contributions. Born with a keen interest in the sciences, Dr. Bag completed his secondary and higher secondary education with first-division distinctions from the West Bengal Board of Secondary Education in 1983 and the West Bengal Council of Higher Secondary Education in 1985, respectively. His academic prowess led him to Burdwan University, where he pursued a Bachelor of Science degree with honors in Chemistry, accompanied by Physics and Mathematics. His undergraduate years were marked by diligence and a budding passion for chemical sciences, culminating in his achievement of a second-division grade.Eager to delve deeper into the world of chemistry, Dr. Bag pursued a Master’s degree in Chemistry at the prestigious Indian Institute of Technology (IIT), Kharagpur, where he specialized in all facets of the field, including Physical, Organic, Inorganic, and Polymer Chemistry. His outstanding performance earned him an impressive CGPA of 9.16 out of 10, reflecting his dedication and academic excellence. Driven by a desire to further his knowledge, he continued his studies at IIT Kharagpur, where he attained a Ph.D. in Polymer Science in 1996. His doctoral research laid the groundwork for his future contributions in the field of material science and polymers, setting him on a path to innovation and discovery.

Professional Endeavors 🏛️🔬

Dr. Bag’s professional journey began with two formative years in industrial research and development at the Ahmedabad Textile Industry’s Research Association. This role allowed him to gain invaluable practical experience in the textile industry, particularly in the field of material applications, where he could apply his expertise in polymer science to address real-world challenges.Following his industrial experience, Dr. Bag transitioned to academia, where he took on teaching and research responsibilities at the Birla Institute of Technology, Mesra. His role in academia not only allowed him to share his knowledge with aspiring scientists but also enabled him to further his own research capabilities. This two-year period in academia marked an essential phase in his career, combining research and mentorship as he worked closely with students and young researchers, nurturing their interest in chemistry and materials science.In 1999, Dr. Bag joined the Defence Materials & Stores Research & Development Establishment (DMSRDE) under the Defence Research and Development Organisation (DRDO) in Kanpur. Over the next 24 years, he dedicated his career to advancing India’s defense capabilities, working on projects essential to national security and defense technology. Rising to the prestigious position of Scientist-G and Additional Director, Dr. Bag became a pivotal figure at DMSRDE, where he focused on materials and stores research, contributing to numerous breakthroughs that have reinforced India’s defense sector.

Contributions and Research Focus 🔍📈

Dr. Bag’s research primarily focuses on polymer science, with a particular emphasis on its applications in defense technology. His work at DMSRDE has involved developing advanced polymeric materials that are vital for the production of durable, high-performance defense equipment. His expertise in polymers has led to the creation of materials that withstand extreme conditions, a crucial requirement in defense applications. Furthermore, his interdisciplinary approach has seen him integrate principles of organic, inorganic, and physical chemistry to push the boundaries of material science, leading to innovative solutions that address the unique challenges faced by the defense sector.Beyond his research in polymers, Dr. Bag has contributed significantly to other aspects of defense materials research. His work encompasses developing environmentally sustainable materials, enhancing the longevity and durability of defense assets, and improving the functionality of materials used in critical defense systems. His contributions have not only strengthened India’s defense materials technology but have also established him as a thought leader in material science research.

Accolades and Recognition 🏆🌟

Over the years, Dr. Bag has earned multiple accolades for his contributions to defense research and material sciences. His innovative research, commitment to excellence, and substantial contributions to defense technology have earned him respect and recognition within DRDO and among the broader scientific community. His rise to the esteemed position of Scientist-G/Additional Director is a testament to his dedication and expertise, and his work continues to inspire peers and young researchers alike.

Impact and Influence 🌐💡

Dr. Bag’s influence extends far beyond the boundaries of DMSRDE and DRDO. His work in polymer science and material engineering has had a profound impact on India’s defense technology, ensuring that the armed forces are equipped with materials that enhance performance and reliability. His research has not only fortified the defense capabilities of the country but has also set new benchmarks in the field of material science. His role in the development of high-performance polymers has paved the way for further advancements, inspiring future researchers to explore new applications of polymer science.In addition to his contributions to defense technology, Dr. Bag’s academic and professional journey serves as an inspiration to students, researchers, and fellow scientists. His dedication to continuous learning and innovation embodies the spirit of scientific inquiry, encouraging others to pursue their research goals with passion and perseverance.

Legacy and Future Contributions 🔮🚀

As Dr. Dibyendu Sekhar Bag continues his work at DMSRDE, his legacy is already taking shape. His contributions to polymer science and defense technology will undoubtedly have a lasting impact, influencing future research and development in material science. Dr. Bag’s commitment to excellence and innovation is a guiding light for upcoming generations of scientists and researchers, who will benefit from his pioneering work and dedication to national service.Looking forward, Dr. Bag aims to continue exploring new frontiers in material science, with a focus on sustainable and resilient materials. His ongoing research is likely to yield further advancements in defense technology, positioning India as a leader in innovative defense materials. With a career marked by scientific rigor, impactful contributions, and a commitment to national progress, Dr. Bag’s journey exemplifies the potential of dedicated research to shape the future of defense and material sciences. His legacy as a scientist, mentor, and innovator will undoubtedly endure, inspiring future generations to pursue excellence in their own academic and professional endeavors.

Citations

A total of 695 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         695
  • h-index           66
  • i10-index        17

Notable Publications 

  • Title: High-performance PPS/PEEK blend and its composites with milled carbon fiber: Study on their mechanical, thermal and dielectric properties
    Authors: Tiwari, S., Bag, D.S., Mishra, P., Lal, G., Dwivedi, M.
    Journal: Polymer Composites
    Year: 2024.
  • Title: Formulation and Characterization of Silane Modified Acrylic Based Transparent Organic-Inorganic Hybrid Coatings for Improved Instrumented Indentation Hardness of PMMA
    Authors: Das, V., Singh, A.S., Singh, A., Mishra, P., Bag, D.S.
    Journal: Silicon
    Year: 2024.
  • Title: Poly (ethylene-co-methacrylic acid) (PEMA) ionomers and their applications including self-healing and shape memory applications
    Authors: Tiwari, S., Bag, D.S., Dwivedi, M.
    Journal: Journal of Polymer Research
    Year: 2024.
  • Title: Self-healing thermoplastic elastomeric blends of zinc-ionomer and styrene–butadiene–styrene block copolymer and their characterization
    Authors: Tiwari, S., Bag, D.S., Dwivedi, M.
    Journal: Polymer International
    Year: 2024.
  • Title: Effect of in-situ Incorporated Silica Particles on Properties of Polyurethane Elastomer
    Authors: Tripathi, N., Singh, A.S., Banshiwal, J.K., Pandey, P., Bag, D.S.
    Journal: Silicon
    Year: 2024.

P.Arockia Michael Mercy | Materials Science | Best Researcher Award

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Dr. P.Arockia Michael Mercy | Materials Science | Best Researcher Award

Madonna Arts and Science College for Women, India

Author Profile

Early Academic Pursuits 🎓

Dr. S.R.P. Arockia Michael Mercy embarked on her academic journey with a focus on Physics, completing her Bachelor of Science in Physics from MK University in 2005. Her passion for the subject led her to pursue a Master’s in Physics at Arul Anandar College, affiliated with MK University, completing it in 2017. This foundational education ignited her curiosity in the fields of microstrip patch antennae and solar cells, motivating her to delve further into research. Driven by her dedication to innovation and scientific advancement, she earned her PhD in Physics from MK University in 2023, marking a significant milestone in her academic journey.

Professional Endeavors and Teaching Experience 👩‍🏫

Dr. Mercy’s career as an educator began with her role as an Assistant Professor at Madonna Arts and Science College for Women, where she has devoted eight years to shaping the minds of future scientists. With her teaching interests spanning various subjects, including Physics laboratory practices, and personal passions like choir, dance, and hand arts, she has contributed to the academic and holistic growth of her students. Her dedication to teaching goes beyond mere theoretical knowledge, as she emphasizes hands-on learning and practical applications of physics concepts in real-world settings. Her versatility and passion for various forms of art also enrich her classroom experience, creating a dynamic and inclusive learning environment.

Contributions and Research Focus 🔬

Dr. Mercy’s research interests lie primarily in Microstrip Patch Antenna and Solar Cells, fields that have tremendous potential for impacting technology and sustainability. Microstrip patch antennas, known for their compact size and efficiency, are essential in modern communication systems, from mobile devices to satellite applications. Dr. Mercy’s research contributes to advancements in antenna technology, focusing on enhancing signal clarity, reducing interference, and improving overall efficiency. Her work in solar cells aligns with the global pursuit of renewable energy sources. By exploring innovative materials and designs, she contributes to making solar technology more accessible and efficient, aiming to reduce environmental impact and dependence on fossil fuels.

Accolades and Recognition 🏅

Throughout her career, Dr. Mercy has been recognized for her dedication to education and commitment to research. Her innovative approaches in the classroom and contributions to her research areas have earned her respect among colleagues and students alike. Her research in microstrip patch antennae and solar cells is particularly noteworthy in academic circles, as these fields are both highly competitive and impactful. She has also participated in various academic conferences, sharing her findings and insights with fellow researchers and contributing to the broader scientific community.

Impact and Influence 🌍

Dr. Mercy’s influence extends beyond her classroom, reaching her students, colleagues, and the scientific community. As a mentor, she encourages her students to pursue their passions, fostering a culture of curiosity and perseverance. Her work in microstrip patch antennae and solar cells is relevant not only in academia but also in industries focused on communications and renewable energy. By aligning her research with global needs for sustainable energy and advanced communication technology, she has positioned herself as an advocate for positive change and innovation.

Legacy and Future Contributions 🚀

As Dr. Mercy continues her journey in academia and research, her contributions promise to leave a lasting legacy. Her students benefit not only from her knowledge in physics but also from her holistic approach to learning, which includes arts and creative thinking. Her ongoing research in microstrip patch antennae and solar cells holds the potential for groundbreaking discoveries that could influence these fields for years to come. As she expands her research and engages in collaborative projects, Dr. Mercy aims to inspire future generations of physicists and researchers to pursue innovation and sustainability.

Citations

A total of 21 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         21
  • h-index           12
  • i10-index        3

Notable Publications 

  • Title: Novel nanocomposite based microstrip patch antenna for C and X band applications
    Author(s): Mercy, P.A.M.
    Journal: Materials Chemistry and Physics
    Year: 2024.
  • Title: Gain Enhancement of Composite Photonic Crystal Microstrip Patch Antenna Inspired by Maxwell Garnett Model for C-Band, X-Band and Ku Band Applications
    Author(s): Mercy, P.A.M., Wilson, K.S.J.
    Journal: Crystal Research and Technology
    Year: 2024.
  • Title: Comparative Study of Polarization-Dependent Conversion Efficiency of GaAs and Si Solar Cells at Oblique Incident Angles Using Surface DLAR Coating of MgF2/ZnSe
    Author(s): Mercy, P.A.M., Wilson, K.S.J.
    Journal: Crystal Research and Technology
    Year: 2024.
  • Title: A Comparative Study of Diverse RF-MEMS Switch Design Concepts Experimentally Verified up to 110 GHz for Beyond-5G, 6G and Future Networks Applications
    Author(s): Iannacci, J., Tagliapietra, G., Donelli, M., Guha, K., Lenka, T.R.
    Journal: Lecture Notes in Electrical Engineering
    Year: 2024.
  • Title: Development of environmental friendly high performance Cs2TiBr6 based perovskite solar cell using numerical simulation
    Author(s): Mercy, P.A.M., Wilson, K.S.J.
    Journal: Applied Surface Science Advances
    Year: 2023.