Sankit Kassa | Atomic Molecular | Best Researcher Award

Dr. Sankit Kassa | Atomic Molecular | Best Researcher Award 

Symbiosis Institute of Technology | India

Author Profile

Early Academic Pursuits

Dr. Sankit Ramkrishna Kassa's academic journey commenced with a strong foundation in Electronics and Communication Engineering. He earned his B.Tech from Government Engineering College, Gandhinagar, in 2009, showcasing early promise in the field. This was followed by his M.Tech in Communication Systems & Networks from the National Institute of Technology, Hamirpur, in 2011, where he further honed his expertise.

Professional Endeavors

Dr. Kassa's professional journey is marked by a series of significant appointments in academia. He served as an Assistant Professor in various esteemed institutions, including Rajiv Gandhi Institute of Technology, Mumbai, and MLR Institute of Technology, Hyderabad. His tenure as an Associate Professor at institutions like Usha Mittal Institute of Technology, Mumbai, and Dr. D Y Patil Institute of Technology, Pune, underscores his commitment to academic excellence.

Contributions and Research Focus

Dr. Kassa's research focus lies in the realm of VLSI Circuits and Systems, with a particular emphasis on Quantum Dot Cellular Automata (QCA) and Microfluidics devices. His doctoral thesis on "Studies of Low Power VLSI Design Approaches Suitable for Energy Efficient Nanoscale Circuits" exemplifies his dedication to advancing the frontiers of VLSI technology. Moreover, his exploration of Femtocells in Next Generation Wireless Networks (NGWNs) demonstrates his interdisciplinary approach towards solving real-world challenges.

Citation

Citations    238

h-index      9

i10-index   8

Impact and Influence

Dr. Kassa's contributions have left a profound impact on both academia and industry. His publication record, coupled with his active involvement in cutting-edge research projects, has garnered him recognition within the scientific community. Moreover, his mentorship of students and collaborative efforts with peers have fostered a culture of innovation and excellence.

Academic Citations

Dr. Kassa's publications, including his book on "Performance analysis of Femtocells in NGWNs," have contributed significantly to the academic discourse in the field of VLSI and wireless communication. Furthermore, his research projects, both at the B.Tech and M.Tech levels, have laid the groundwork for future advancements in the domain.

Legacy and Future Contributions

Dr. Sankit Ramkrishna Kassa's legacy is one of relentless pursuit of knowledge and innovation. As he continues to delve into emerging technologies such as Nano memory using memristors for Artificial Intelligence, his contributions are poised to shape the future of electronics and communication engineering. His commitment to excellence and his interdisciplinary approach ensure that his legacy will endure, inspiring future generations of researchers and engineers.

Atomic Molecular

While Dr. Kassa's primary research focus lies in VLSI Circuits and Systems, his interdisciplinary approach encompasses areas such as Quantum Dot Cellular Automata (QCA), which delve into the atomic and molecular scale properties of materials. Through his research, he explores the intricate interactions at the atomic and molecular level, paving the way for novel applications in electronics and communication engineering.

Notable Publication

Mohamed Mahfouz | Atomic Molecular | Best Researcher Award

Mr. Mohamed Mahfouz | Atomic Molecular | Best Researcher Award

Qatar University | Qatar

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Mohamed M. K. Mahfouz initiated his academic journey with a Bachelor's degree in Physics from Asyut University, Egypt, in 1993. His foundational education laid the groundwork for his subsequent specialization in environmental studies.

PROFESSIONAL ENDEAVORS

Transitioning from academia to professional practice, Mahfouz embarked on a prolific career spanning over two decades. He commenced his professional journey as an Environmental Engineer at the Air Pollution Laboratory, Institute of Graduate Studies and Research, Alexandria University, Egypt, in 1996. Subsequently, he assumed roles of increasing responsibility and impact, traversing industries and geographies.

CONTRIBUTIONS AND RESEARCH FOCUS

Mahfouz's contributions to the field of atmospheric science and air quality are substantial and far-reaching. His expertise encompasses a broad spectrum of disciplines, including air quality monitoring, environmental consultancy, and research. Notably, his research focuses on the optical and physical properties of ambient aerosols, with particular emphasis on black carbon and fine particulate matter. Mahfouz's work is characterized by its multidisciplinary approach and its implications for environmental protection and public health.

IMPACT AND INFLUENCE

Mahfouz's work has made a significant impact on both academia and industry. His involvement in multinational air quality-monitoring projects underscores his leadership and expertise in the field. Moreover, his contributions to peer-reviewed journals have advanced scientific knowledge and informed policy decisions aimed at mitigating air pollution and safeguarding environmental quality.

ACADEMIC CITATIONS

Mahfouz's research findings have garnered recognition from peers in the scientific community, as evidenced by the numerous citations his publications have received. His work serves as a valuable resource for researchers and policymakers alike, contributing to the collective understanding of atmospheric processes and air quality management strategies.

LEGACY AND FUTURE CONTRIBUTIONS

Mohamed M. K. Mahfouz's legacy lies in his dedication to addressing pressing environmental challenges through rigorous research and practical innovation. His future contributions are anticipated to further propel advancements in atmospheric science and air quality management, with a focus on atomic molecular processes and their implications for environmental sustainability.

ATOMIC MOLECULAR

In Mahfouz's body of work, the exploration of atomic molecular processes emerges as a fundamental aspect of his research focus. His multidisciplinary approach integrates knowledge from physics, chemistry, and environmental science to elucidate the intricate interactions between atmospheric constituents. By investigating atomic molecular phenomena, Mahfouz seeks to enhance our understanding of air quality dynamics and inform effective mitigation strategies to combat pollution.

NOTABLE PUBLICATION

 

Wutthisak Prachamon | Atomic Molecular | Best Researcher Award

Dr. Wutthisak Prachamon | Atomic Molecular | Best Researcher Award

Ubon Ratchathani University | Thailand

AUTHOR PROFILE

Scopus

Early Academic Pursuits:

Prof. Wutthisak Prachamon initiated his academic journey at Ubon Ratchathani University, where he pursued research and teaching activities in the field of Physics.

Professional Endeavors:

Throughout his career, Prof. Prachamon has contributed significantly to the field of Atomic Molecular Physics, particularly in the study of carbon nanotubes and transition oxides. His research focuses on density-functional studies, optical transitions, and optoelectronic properties of various materials.

Contributions and Research Focus:

Prof. Prachamon has made notable contributions through his research works, which include investigations into the topology of defects in carbon nanotubes, optical properties of materials, and the thermoelectric behavior of transition oxides. His studies have advanced the understanding of these materials and their potential applications in various fields.

Impact and Influence:

His research outputs have been published in reputable journals and have garnered attention within the scientific community. Prof. Prachamon's findings contribute to the broader body of knowledge in Atomic Molecular Physics and have implications for the development of novel materials and technologies.

Academic Citations:

Prof. Prachamon's research works have been cited numerous times in the academic literature, indicating their impact and relevance within the scientific community.

Legacy and Future Contributions:

Prof. Prachamon's legacy lies in his significant contributions to the understanding of atomic and molecular behavior in materials. His future contributions are anticipated to further advance the field, potentially leading to innovations in materials science and technology.

Notable Publication:

Density-functional study of hydrazine doped single-walled carbon nanotubes as an n-type semiconductor 

Zainab Ashkanani | Atomic Molecular | Best Researcher Award

Dr. Zainab Ashkanani | Atomic Molecular | Best Researcher Award

Texas A&M University | United States

 

 

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Zainab Ashkanani embarked on her academic journey with a fervent interest in Atomic Molecular research, laying the foundation for her subsequent professional endeavors. Her early academic pursuits encompassed a multidisciplinary approach, delving into fields such as Microbiology & Molecular Biology, Biotechnology, Chemistry, Health Sciences, Biomedical Sciences, Environmental Engineering, and Biological & Agricultural Engineering.

PROFESSIONAL ENDEAVORS

With a robust academic background, Zainab ventured into the realm of scientific research, where she dedicated herself to exploring cutting-edge solutions in various domains. Notably, her professional endeavors have revolved around advancing Advanced Photo-Oxidation Process (AOP) systems to combat oil-contaminated soils in Kuwait. Collaborating with esteemed institutions such as the Kuwait Institute for Scientific Research (KISR), Kuwait Oil Company (KOC), and Kuwait University, she spearheaded initiatives that led to the successful treatment of over 1,500 contaminated soil samples.

CONTRIBUTIONS AND RESEARCH FOCUS

Zainab's contributions extend across a wide spectrum of research areas, showcasing her versatility and expertise. From applying AOP technology for wastewater reuse to identifying bacteria responsible for decomposing human DNA, her research endeavors have made significant strides in addressing pressing global challenges. Noteworthy projects include investigating genes associated with breast cancer, studying lipolytic activity in prostate cancer, and exploring photobiomodulation for multiple sclerosis treatment, highlighting her commitment to advancing medical science.

IMPACT AND INFLUENCE

Zainab's research has had a profound impact on both academic and practical fronts. By developing AI models for monitoring chemical reactions and soil oil-contamination, she has revolutionized the approach to environmental remediation. Her collaboration with organizations like the American Red Cross and the United Nations underscores her dedication to global environmental and sustainable development endeavors, leaving a lasting imprint on humanitarian efforts.

ACADEMIC CITATIONS

Zainab's work has garnered recognition within the scientific community, evident from the numerous citations her research has received. Her contributions to various research fields have been cited extensively, attesting to the significance and relevance of her findings.

LEGACY AND FUTURE CONTRIBUTIONS

As Zainab continues her academic and professional journey, her legacy is poised to endure through her ongoing commitment to scientific innovation and societal impact. With a focus on Atomic Molecular research and interdisciplinary collaboration, she is poised to shape the future of scientific inquiry and environmental sustainability, leaving a lasting legacy for generations to come.

NOTABLE PUBLICATION

AI-assisted systematic review on remediation of contaminated soils with PAHs and heavy metals15 April 2024

 

 

 

Neil Phillips | Atomic Molecular | Outstanding Researcher in Atomic Physics Award

Dr. Neil Phillips | Atomic Molecular | Outstanding Researcher in Atomic Physics Award

Unversity of the West of England | United Kingdom

AUTHOR PROFILE

Scopus

Google Scholar

EARLY ACADEMIC PURSUITS

Neil Phillips embarked on his academic journey with a Bachelor's degree in Electrical and Electronic Engineering from Cardiff University, where he exhibited a keen interest in understanding the intricacies of technology. This foundation laid the groundwork for his subsequent academic pursuits, culminating in a Doctorate from the same institution, specializing in the Application of High-Temperature Superconductors to Electric Drives. His academic endeavors reflect a passion for delving into the fundamental workings of systems and seeking innovative solutions.

PROFESSIONAL ENDEAVORS

Following his academic achievements, Neil transitioned seamlessly into the realm of research and development. His tenure at Dyson Ltd. as a Technology Appraisal Manager showcased his adeptness at managing research teams, evaluating project proposals, and steering the company's research strategy. This experience equipped him with a robust understanding of technological landscapes and honed his skills in project management, financial oversight, and intellectual property management, Atomic Molecular.

CONTRIBUTIONS AND RESEARCH FOCUS

Neil's research trajectory has been marked by a diverse array of projects, ranging from exploring fungal architectures to pioneering advancements in Engineered Living Materials (ELMs) and liquid marble technology. His multidisciplinary approach to research underscores his ability to tackle complex challenges, evidenced by his involvement in projects funded by prestigious entities such as the EU and EPSRC. His contributions to the field extend beyond traditional boundaries, as exemplified by his innovative endeavors in bioelectronics, sustainable technologies, and computational substrates.

IMPACT AND INFLUENCE

Neil's research has garnered significant recognition, with accolades such as the Research Publication of the Year award from the Institute of Biological Engineering and the Vice-Chancellor's Challenge Award for his groundbreaking work on mitigating global warming. His initiatives in public engagement and knowledge exchange underscore his commitment to driving societal impact and fostering scientific literacy. Furthermore, his patents reflect a tangible legacy of innovation, contributing to advancements in areas such as power conversion, motor technology, and floor cleaning devices.

ACADEMIC CITATIONS

Neil's scholarly contributions have left an indelible mark on the academic community, evident from the citations and acknowledgments garnered by his publications. His research outputs have enriched the scientific discourse surrounding topics such as bioelectronics, fungal architectures, and sustainable technologies, Atomic Molecular, cementing his reputation as a thought leader in these domains.

LEGACY AND FUTURE CONTRIBUTIONS

As Neil Phillips continues to chart new frontiers in research and innovation, his legacy resonates through his seminal contributions to science and technology. His unwavering dedication to addressing societal challenges and pushing the boundaries of knowledge serves as an inspiration to future generations of researchers. With his diverse skill set, visionary outlook, and commitment to excellence, Neil remains poised to make enduring contributions to academia, industry, and society at large.

ATOMIC MOLECULAR

Throughout his career, Neil Phillips has demonstrated an atomic focus on understanding the molecular intricacies of various systems, from high-temperature superconductors to fungal architectures. His research endeavors delve into molecular-level phenomena, harnessing the potential of atomic structures to drive technological innovations. Whether exploring the properties of liquid marbles or designing modular bioreactor walls, Neil's work epitomizes a molecular approach to solving real-world problems, propelling scientific understanding and technological advancement forward.

NOTABLE PUBLICATION

No ultrasounds detected from fungi when dehydrated  2023 (1)

Electrical response of fungi to changing moisture content  2023 (4)

Kombucha electronics: electronic circuits on kombucha mats  2023 (4)

 

 

Majid Bagherinia | Atomic Molecular | Best Researcher Award

Dr. Majid Bagherinia | Atomic Molecular | Best Researcher Award

Ataturk University | Turkey

 

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Majid Bagherinia embarked on his academic journey with a strong foundation in civil engineering, fostering a passion for geotechnical research and ground improvement techniques.

PROFESSIONAL ENDEAVORS

As a Research Assistant at the Department of Civil Engineering, University of Ataturk, Majid Bagherinia dedicated eight years to investigating various aspects of geotechnical engineering. His work resulted in five publications in peer-reviewed scientific journals, one presentation at international conferences, and one scientific research project.

CONTRIBUTIONS AND RESEARCH FOCUS

Majid Bagherinia's research focus lies in ground improvement techniques utilizing biomolecules, bacteria, and biopolymers. His pioneering work in merging geotechnical engineering with chemistry has led to the development of three environmentally friendly materials as alternatives to traditional binders for soil stabilization.

IMPACT AND INFLUENCE

Through his research endeavors, Majid Bagherinia has made significant contributions to the field of geotechnical engineering, particularly in the utilization of recycled waste materials and the development of geopolymers. His innovative approaches have the potential to revolutionize geo-environmental infrastructure projects and promote sustainability in construction practices, Atomic Molecular

ACADEMIC CITES

Majid Bagherinia's research outputs have been cited by peers and colleagues in the field, highlighting the relevance and impact of his work in advancing knowledge and innovation in geotechnical engineering.

LEGACY AND FUTURE CONTRIBUTIONS

As Majid Bagherinia continues his academic and professional journey, his legacy extends beyond his current endeavors. His dedication to interdisciplinary research and commitment to sustainability positions him as a leader in the field. With ongoing interests in image analysis, artificial neural networks, and atomic molecular studies, he is poised to make further significant contributions to the advancement of geotechnical engineering and environmental sustainability.

This content incorporates the requested keywords while highlighting key aspects of Majid Bagherinia's academic and professional journey in geotechnical engineering. Let me know if you need further adjustments or additional information.

NOTABLE PUBLICATION

Investigation of Physicochemical Changes of Soft Clay around Deep Geopolymer Columns 2022 (1)

Effect of deep chemical mixing columns on properties of surrounding soft clay  2021 (3)

Utilization of Polymers to Improve Soft Clayey Soils Using the Deep Mixing Method  2017 (16)

Behavior of polymer columns in soft clayey soil: A preliminary study  2016 (7)

   

Mohamed Ellouze | Atomic Molecular | Best Researcher Award

Prof. Mohamed Ellouze | Atomic Molecular | Best Researcher Award

Faculty of Sciences of Sfax  | Tunisia

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Dr. Mohamed Ellouze embarked on his academic journey with a strong foundation in physics, which led him to pursue a Ph.D. in Crystallographic and Magnetic Properties of Solids at the Grenoble Institute of Technology, France, from December 1995 to December 1998. This early academic pursuit laid the groundwork for his subsequent contributions to the field of condensed matter physics.

PROFESSIONAL ENDEAVORS

Following the completion of his Ph.D., Dr. Ellouze joined the University of Sfax, Tunisia, where he has made significant strides in his academic career. Starting as an Assistant Professor in October 1999, he steadily progressed to the position of Full Professor, a role he has held from October 2005 to January 2024. His tenure at the University of Sfax has been marked by a dedication to research, teaching, and academic leadership.

CONTRIBUTIONS AND RESEARCH FOCUS ON ATOMIC MOLECULAR

Dr. Ellouze's research interests span various areas of solid-state physics, with a particular focus on material characterization, nanomaterials, and magnetic properties. His expertise includes employing techniques such as neutron diffraction and the Rietveld method for structure determination, as well as synthesizing nanoparticles and exploring their magnetic behaviors. His research also extends to the study of perovskite-type oxides and intermetallic alloys, shedding light on their properties and potential applications.

ACCOLADES AND RECOGNITION

Throughout his career, Dr. Ellouze has received recognition for his outstanding contributions to the field of physics. Notable awards and grants include a Scholarship for Habilitation in June 2003 and a prestigious Alexander von Humboldt Stiftung Fellowship in March 2002. His scholarly achievements have been acknowledged both nationally and internationally, affirming his status as a leading figure in the scientific community.

IMPACT AND INFLUENCE

Dr. Ellouze's impact extends beyond his research endeavors, as evidenced by his active involvement in scientific associations and committees. He has served in various leadership roles, including President of the Maghreb-Alexander von Humboldt Alumni Association and Vice President of the same association. Additionally, Atomic Molecular.his role as President of the commission of theses and habilitation of physics at the Faculty of Sciences of Sfax underscores his commitment to fostering academic excellence and professional development among his peers and students.

LEGACY AND FUTURE CONTRIBUTIONS

As Dr. Ellouze's career continues to evolve, his legacy as a dedicated researcher and educator is firmly established. His contributions to the understanding of magnetic materials and solid-state physics will undoubtedly shape future advancements in the field. With a keen interest in medical image processing, Atomic Molecular. he remains poised to explore interdisciplinary avenues and drive innovation in scientific research. Dr. Ellouze's legacy serves as an inspiration for aspiring scientists and underscores the importance of curiosity, perseverance, and academic rigor in pushing the boundaries of knowledge.

NOTABLE PUBLICATION