Deva Prasad Raju Borelli | Photonics | Excellence in Atomic, Molecular, and Optical Physics Award

Prof Dr. Deva Prasad Raju Borelli | Photonics | Excellence in Atomic, Molecular, and Optical Physics Award 

Sri Venkateswara Uiversity | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Deva Prasad Raju's academic journey began with a fervent interest in materials science and photonics. His early engagement in research projects laid the groundwork for his future endeavors in the field.

PROFESSIONAL ENDEAVORS

Dr. Deva Prasad Raju's professional journey is marked by a prolific engagement in research projects and collaborations. From his pioneering work in lanthanide-doped phosphors to his contributions in the optimization of solid-state lasers, his expertise in photonics has been instrumental in advancing the field.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Deva Prasad Raju's research focus encompasses a wide range of topics in photonics, including the development of novel phosphors for white light-emitting diodes, optimization of glass-ceramics for high-power solid-state lasers, and fabrication of lead fluoroborate glasses for fiber lasers and optical amplifiers. His contributions have significantly enhanced our understanding of luminescence properties and materials optimization in photonics applications.

CITATIONS

  • Citations   3875
  • h-index     38
  • i10-index  70

IMPACT AND INFLUENCE

Dr. Deva Prasad Raju's impact extends beyond his individual research projects. His collaborations with esteemed colleagues and active participation in conferences and seminars have fostered an environment of knowledge exchange and innovation, shaping the trajectory of photonics research both nationally and internationally.

ACADEMIC CITES

Dr. Deva Prasad Raju's research findings have been disseminated widely in national and international conferences, as evidenced by the numerous papers presented and published in esteemed proceedings. His work has garnered recognition and citation in the academic community, further solidifying his reputation as a leading figure in photonics research.

LEGACY AND FUTURE CONTRIBUTIONS

As Dr. Deva Prasad Raju continues to push the boundaries of photonics research, his legacy of groundbreaking discoveries and collaborative endeavors will pave the way for future advancements in the field. With a steadfast commitment to innovation and excellence, he is poised to make enduring contributions to the ever-evolving landscape of photonics.

PHOTONICS

Dr. Deva Prasad Raju's expertise in photonics is evident throughout his academic and professional journey. From his early research projects to his ongoing collaborations, photonics remains at the forefront of his pursuits. His work encompasses a diverse array of topics within the field, showcasing his multidisciplinary approach and profound impact on photonics research.

NOTABLE PUBLICATION

Mohamed shaban | Nanophotonics | Best Researcher Award

Prof Dr. Mohamed shaban | Nanophotonics | Best Researcher Award

Islamic University of Madinah | Saudi Arabia

AUTHOR PROFILE

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Early Academic Pursuits:

Prof. Dr. Mohamed Shaban Said Fadel embarked on his academic journey in the field of physics with a strong foundation laid during his undergraduate studies. He pursued a Bachelor of Science degree in Physics-Mathematics from the Faculty of Science, Beni-Suef branch, Cairo University, Egypt, graduating with distinction in 2000. Building upon this, he pursued Pre-Master Studies in Experimental Physics at the same institution, solidifying his knowledge base and setting the stage for further academic pursuits.

Professional Endeavors:

Following his undergraduate studies, Prof. Fadel embarked on a career dedicated to academia and scientific research. He commenced his professional journey as a Demonstrator in the Department of Physics at the Faculty of Science, Beni-Suef Branch, Cairo University, Egypt, where he contributed to the education of future physicists while furthering his own academic pursuits. His dedication and passion for research led him to pursue postgraduate studies, culminating in a Master of Science in Experimental Physics from the Faculty of Science, Beni-Suef University, Egypt, in 2006. His master's dissertation focused on the study of optical excitation of atoms by electron impact, demonstrating an early interest in experimental physics and its applications.

Contributions and Research Focus:

Throughout his career, Prof. Fadel has been deeply engaged in cutting-edge research across various domains of nanophotonics. His research interests span Electron-Atom Collision, Nanoporous Membranes, Photonic Nanostructures, Plasmonic Nanostructures, Thin Films, Polymers, Catalysts, Sensors, Water Desalination, Solar Energy Applications, and more. His multidisciplinary approach has led to significant contributions in areas such as water treatment technologies, renewable energy, biological and biomedical applications, and nanomaterials synthesis and characterization.

Impact and Influence:

Prof. Fadel's contributions to the field of nanophotonics have made a significant impact both nationally and internationally. His research findings have been published in numerous peer-reviewed journals and presented at prestigious conferences and symposiums. Through his innovative research endeavors, he has garnered recognition for his pioneering work in advancing our understanding of nanomaterials and their diverse applications.

Academic Citations:

The prolific nature of Prof. Fadel's research is reflected in his substantial academic citations. His publications have been cited extensively, attesting to the relevance and impact of his work within the scientific community. Prof. Fadel's contributions have not only expanded the frontiers of knowledge in nanophotonics but have also inspired future generations of researchers to explore new avenues in this dynamic field.

Legacy and Future Contributions:

As a dedicated educator, researcher, and mentor, Prof. Fadel's legacy extends beyond his scientific contributions. His leadership roles in academia, including his tenure as Vice Dean and Director of Nanophotonics and Applications Labs, have helped shape the academic landscape and fostered a culture of innovation and excellence. Looking ahead, Prof. Fadel remains committed to pushing the boundaries of nanophotonics, addressing pressing global challenges, and nurturing the next generation of scientific leaders through mentorship and collaboration.

Notable Publication:

From nutshells to energy cells: Pioneering supercapacitor electrodes via innovative argan nutshell activated carbon synthesis  30 March 2024

Aadil Bhat | Optical Physics | Best Researcher Award

Dr. Aadil Bhat | Optical Physics | Best Researcher Award

konkuk University | South Korea

 

 

 

AUTHOR PROFILE

Scopus

EARLY ACADEMIC PURSUITS

Aadil Ahmad Bhat embarked on his academic journey with a strong foundation in the sciences. Beginning with his schooling at Govt High School Hugam in Anantnag, he demonstrated exceptional aptitude and enthusiasm for learning. His academic prowess continued through his higher secondary education at Govt Higher Secondary School Bijbehara, where he laid the groundwork for his future studies in chemistry. This early academic foundation provided the framework for his subsequent achievements in higher education and professional endeavors.

PROFESSIONAL ENDEAVORS

With a solid academic background, Aadil Ahmad Bhat pursued higher education at esteemed institutions, shaping his expertise in chemistry. He obtained his Bachelor of Science degree from the University of Kashmir, followed by a Master of Science degree from Jiwaji University, Gwalior. His dedication to the field led him to pursue a Ph.D. in Chemistry at the School of Studies in Chemistry, Jiwaji University, where he delved deep into the realm of perovskite materials research.

CONTRIBUTIONS AND RESEARCH FOCUS

Throughout his academic journey, Aadil Ahmad Bhat exhibited a keen interest in perovskite materials research. His doctoral thesis, titled "Hydrothermal Synthesis, Characterization and Optoelectronic Properties of Perovskite nanoparticles," exemplifies his commitment to advancing the understanding and application of perovskite materials in various fields such as photovoltaics, LEDs, and sensors. His research contributions have significantly enriched the scientific community's knowledge base in this cutting-edge field.

IMPACT AND INFLUENCE

Aadil Ahmad Bhat's research endeavors have left a profound impact on the field of optical physics, particularly in the domain of perovskite materials. His deep understanding of perovskite crystal structures and synthesis techniques has paved the way for innovations in solar cell technology and other optoelectronic devices. His work has garnered attention for its potential to revolutionize renewable energy solutions and drive advancements in sustainable technology.

ACADEMIC CITATIONS

Aadil Ahmad Bhat's contributions to perovskite materials research have been recognized and cited by peers and scholars in the scientific community. His publications in reputed journals serve as a testament to the significance and relevance of his work. His research findings continue to inspire further exploration and investigation in the field of optical physics and materials science.

LEGACY AND FUTURE CONTRIBUTIONS

As Aadil Ahmad Bhat continues his academic journey as a Postdoctoral Fellow at Konkuk University in Seoul, South Korea, he is poised to build upon his legacy of impactful research in perovskite materials. With a dedication to pushing the boundaries of knowledge and a passion for sustainable energy solutions, he is committed to making significant contributions to the advancement of perovskite technology. His future endeavors hold the promise of shaping the future of optical physics and materials science for generations to come.

NOTABLE PUBLICATION

Band-gap alteration of Zn2SnO4 nanostructures for optical and photo-luminescent applications   2023 (3)

Photoluminescence Emission Studies on a Lanthanum-Doped Lead Free Double Halide Perovskite, La:Cs2SnCl6    2023 (2)

Confocal mapping of stable room-temperature emission centers in gadolinium doped vacancy-ordered double halide perovskite , Gd:Cs2SnCl6  2023 (2)

Study of electrochemical sensor and energy storage properties of MnTiO3 nano‐perovskite  2022 (2)

Room temperature photoluminescent study of thermally grown reduced graphene oxide quantum dots  2022 (3)

 

Sahaya jude Sathiya dhas | Optical applications | Optical Physics Excellence Award

AUTHOR PROFILE

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EARLY ACADEMIC PURSUITS

Dr. S. Sahaya Jude Dhas embarked on his academic journey with a fervent pursuit of knowledge, culminating in a distinguished educational background. Graduating with a Bachelor's and Master's degree in Physics from renowned institutions such as Madurai Kamaraj University and Manonmaniam Sundaranar University, respectively, he laid the foundation for a career marked by excellence. His educational journey continued with a Master of Arts in English from Annamalai University, reflecting a holistic approach to learning. Subsequently, he pursued higher studies, obtaining a Master of Philosophy in Physics from Bharadidasan University and earning the coveted title of Doctor of Philosophy in Physics from Madras University in 2014, a testament to his dedication and scholarly pursuit.

PROFESSIONAL ENDEAVORS

Dr. S. Sahaya Jude Dhas's professional journey epitomizes a commitment to academic excellence and scholarly contributions. With over 26 years of teaching experience, he has imparted knowledge across various educational institutions, fostering a passion for Physics among students. His tenure at Kings Engineering College as a Professor of Physics underscores his dedication to academic leadership and mentorship. Prior engagements at esteemed institutions such as Loyola College, Saveetha Engineering College, and Tagore Engineering College further enriched his pedagogical repertoire.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. S. Sahaya Jude Dhas's research interests encompass a diverse array of topics, with a primary focus on Optical Applications. His seminal contributions in Shock Wave Physics, Nanostructures, Spectroscopy, Crystal Growth, Thin Films, Luminescence, UV Blockers, Gas Sensors, Bacterial Inhibitors, and Photocatalysis have significantly advanced the field of Physics. Through rigorous inquiry and scholarly exploration, he has illuminated new pathways for scientific inquiry, elucidating the intricate mechanisms underlying optical phenomena and their practical applications.

IMPACT AND INFLUENCE

Dr. S. Sahaya Jude Dhas's scholarly endeavors have left an indelible mark on the scientific community, evident in his prolific publication record and substantial impact factor. With over 125 papers published in Science Citation Indexed Expanded Journals (SCIE) and a cumulative impact factor of 413.427, his research has garnered international acclaim. Notably, his contributions have been published in esteemed journals across quartiles, reflecting the breadth and depth of his scholarly influence.

ACADEMIC CITES

Dr. S. Sahaya Jude Dhas's work has been cited extensively, attesting to its relevance and significance in the scientific domain. His research findings have been instrumental in shaping the discourse surrounding Optical Applications, serving as a cornerstone for further investigation and scholarly dialogue. Through meticulous experimentation and theoretical elucidation, he has propelled the field forward, garnering recognition and acclaim from peers and colleagues alike.

LEGACY AND FUTURE CONTRIBUTIONS

As a stalwart in the field of Physics, Dr. S. Sahaya Jude Dhas's legacy is defined by his unwavering commitment to academic excellence and scholarly inquiry. His pioneering research in Optical Applications has laid the groundwork for future generations of scientists, inspiring them to push the boundaries of knowledge and innovation. With a steadfast dedication to advancing the frontiers of science, he continues to chart new territories and pave the way for transformative discoveries that will shape the future of Physics.

OPTICAL APPLICATIONS

Dr. Dhas has a keen interest in OPTICAL APPLICATIONS, evident in his research pursuits and publications. His work in this area explores the diverse applications of optics in fields such as spectroscopy, thin films, and luminescence. By leveraging the principles of optics, Dr. Dhas aims to develop innovative solutions for real-world challenges, contributing to advancements in technology and science.

NOTABLE PUBLICATION

Acoustic shock wave-induced ordered to disordered switchable phase transitions: A case study of ferroelectric triglycine sulphate single crystal for the application of molecular switches  April 2024

Role of annealing on the structural, optoelectronic and antibacterial properties of Sm-doped TiO2 quantum dots  April 2024

Growth of high quality KADP mixed crystals grown by conventional and sankaranayanan-ramasamy (SR) methods for nonlinear optical applications  March 2024

Acoustical shock wave induced enhancement of optical transparency in crystalline solid—a case study of p-Nitroaniline 

Igor Zago | Optical Physics | Best Researcher Award

Mr. Igor Zago | Optical Physics | Best Researcher Award

Federal University of São Carlos | Brazil

 

AUTHOR PROFILE

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EARLY ACADEMIC PURSUITS

Igor Zago began his academic journey with a strong focus on aviation technology, earning a degree in Aircraft Maintenance Technology from the Federal Institute of Education, Science, and Technology of São Paulo (IFSP) in 2016. Following this, he pursued a Master's degree in Mechanical Science and Engineering with an emphasis on aircraft at the University of São Paulo (USP), School of Engineering (EESC/USP) from 2017 to 2019. This early academic foundation laid the groundwork for his subsequent doctoral studies in Material Science and Engineering at the Federal University of São Carlos (UFSCar) starting from 2019.

PROFESSIONAL ENDEAVORS

During his professional journey, Igor Zago has undertaken various roles, including a teaching professorship at the Federal Institute of Science Education and Technology (IFSP) from 2019 to 2020. In this capacity, he imparted knowledge on topics such as structural repairs in metallic materials, mechanical fabrication, helicopter maintenance, aeronautical engines, intake and exhaust systems. This experience underscores his commitment to knowledge dissemination and pedagogy, Optical Physics.

CONTRIBUTIONS AND RESEARCH FOCUS

Igor Zago's research interests primarily revolve around the thermomechanical behavior of composite materials, where he employs analytical, numerical, and experimental methodologies. His expertise encompasses material modeling, thermomechanical experiments, mechanics of materials, digital image correlation (DIC), and finite element method (FEM) simulations. Through his investigations, Zago seeks to advance the technological development of Brazil, particularly in the realm of material science and engineering.

IMPACT AND INFLUENCE

Zago's work has significant implications for various industries, especially aviation, where composite materials play a crucial role in enhancing performance and efficiency. By delving into the intricacies of material behavior under thermomechanical conditions, he contributes valuable insights that can inform the design and manufacturing processes, leading to the development of more durable and lightweight components.

ACADEMIC CITATIONS

As a doctoral researcher, Igor Zago's contributions to the field of material science and engineering are reflected in his academic citations, where his work serves as a foundational reference for subsequent studies. His publications and presentations disseminate knowledge and foster scholarly discourse, enriching the academic landscape both nationally and internationally.

LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Igor Zago aims to leave a lasting legacy through his research endeavors and educational initiatives. By nurturing a new generation of scientists and engineers, he hopes to inspire future advancements in material science and engineering. Through continued collaboration, innovation, and dedication to excellence, Zago endeavors to shape the technological landscape and contribute to Brazil's scientific and industrial progress.

OPTICAL PHYSICS

Throughout his academic and professional journey, Igor Zago's research intersects with various disciplines, including optical physics. The utilization of digital image correlation (DIC) techniques in his work underscores the importance of optical principles in understanding material behavior and deformation mechanisms. Zago's multidisciplinary approach highlights the interconnectedness of diverse fields, fostering cross-pollination of ideas and methodologies.

fHiroyuki Okada | Optical Physics | Best Researcher Award

University of Toyama | Japan

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Professor Hiroyuki Okada's academic journey began with a strong foundation in engineering, leading to his pursuit of advanced studies in electron device engineering. He obtained his Doctor of Philosophy (PhD) degree from the prestigious Tokyo Institute of Technology in 1988. This formative period laid the groundwork for his subsequent contributions to the field of materials science and engineering.

PROFESSIONAL ENDEAVORS

Following the completion of his doctoral studies, Prof. Okada embarked on a diverse and enriching professional journey. He commenced his career as a researcher at Sumitomo Electric Industries, Japan, where he honed his skills and gained practical experience in the industry from 1988 to 1991. Subsequently, he transitioned into academia, serving as a lecturer at Toyama University from 1991 to 1994. His role expanded as he progressed to become an associate professor at Toyama University, where he contributed significantly to the academic and research endeavors of the institution from 1994 to 2005. Since 2008, he has held the esteemed position of professor at the University of Toyama, where he continues to inspire and mentor students while making groundbreaking contributions to the field of nano and functional material science.

RESEARCH FOCUS ON  OPTICAL PHYSICS

Prof. Hiroyuki Okada's research interests span a wide range of topics within the realm of materials science and engineering. He is particularly interested in the evaluation of electro-optical properties for organic electronic materials, alignment control of organic molecules, and nano-patterning technology. His research encompasses various applications of electro-optic devices using organic semiconductors, including organic light-emitting diodes (OLEDs), organic field-effect transistors (OFETs), organic photovoltaic cells (OPVs), flexible and printable electronic devices, Optical Physics. and liquid crystal displays (LCDs). Additionally, he is actively engaged in the study of photon quantum computing using liquid crystal devices, exploring innovative approaches such as Mach–Zehnder interferometer and numerical quantization of interfering photons using LC retarder. His pioneering work in this area holds immense promise for advancing the field of photon quantum computing and paving the way for novel applications in information technology.

ACCOLADES AND RECOGNITION

Throughout his illustrious career, Prof. Okada has received numerous accolades and recognition for his outstanding contributions to the field of materials science and engineering. His research publications have garnered widespread attention and acclaim within the academic community, earning him a reputation as a leading authority in his field. Additionally, his active involvement in academic societies such as the Society for Information Display Japan Chapter and the Japan Society of Applied Physics underscores his commitment to advancing scientific knowledge and fostering collaboration among researchers.

IMPACT AND INFLUENCE

Prof. Hiroyuki Okada's research endeavors have had a profound impact on the field of materials science and engineering, shaping our understanding of organic electronic materials and their potential applications in various technological domains. His innovative research contributions have not only advanced the frontiers of knowledge but also inspired future generations of scientists and engineers to explore new avenues for research and discovery. Moreover, his collaborative efforts with industry partners have facilitated the translation of research findings into real-world applications, driving innovation and economic growth.

LEGACY AND FUTURE CONTRIBUTIONS

As a highly respected figure in the academic community, Prof. Okada's legacy extends far beyond his research achievements. His dedication to excellence, passion for teaching, and commitment to advancing scientific knowledge have left an indelible mark on the field of materials science and engineering. Looking ahead, he remains committed to pushing the boundaries of scientific inquiry and exploring new frontiers in nano and functional material science. His visionary leadership and unwavering pursuit of excellence will continue to inspire future generations of researchers and shape the trajectory of scientific progress for years to come.

 

 

 

 

 

Luana Góes Soares Silva | Quantum Optics | Women Researcher Award

Dr. Luana Góes Soares Silva | Quantum Optics | Women Researcher Award

Feevale University | Brazil

Author Profile:

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Early Academic Pursuits:

Luana Goes Soares da Silva's academic journey is marked by a relentless pursuit of excellence in Materials Engineering. She holds a Ph.D. in Engineering of Mines, Metallurgy, and Materials from the Universidade Federal do Rio Grande do Sul (UFRGS), Brazil, obtained in 2018. Her doctoral research, guided by Annelise Kopp Alves, explored the correlation between the photochromic properties and photocatalytic activity of titanium and tungsten oxides. This laid the foundation for her subsequent contributions to the field.

Professional Endeavors:

Post completing her doctorate, Luana pursued a postdoctoral position at UFRGS, emphasizing her commitment to furthering research in the realm of Materials Engineering. Her postdoctoral pursuits highlight her dedication to advancing scientific knowledge and contributing to the academic community.

Contributions and Research Focus On Quantum Optics:

Luana's expertise lies in the synthesis and characterization of materials, particularly through innovative methods such as electrospinning, spin-coating, and hydrothermal techniques. Her research has significantly contributed to understanding the properties and applications of titanium and tungsten oxides, especially in the context of photochromism and photocatalysis. Her work addresses crucial aspects of these materials, from their fundamental properties to their potential applications in various fields.

Accolades and Recognition:

Luana's academic and research contributions have not gone unnoticed. Her participation as a fellow in the Programa de Recursos Humanos da ANP (PRH-ANP) during her master's program and subsequent academic achievements underline her recognition in the academic community.

Impact and Influence:

Luana's work has made a significant impact on the understanding of advanced materials, particularly in the context of their optical and catalytic properties. Her research has the potential to influence various industries, including but not limited to catalysis, optoelectronics, and environmental science.

Legacy and Future Contributions:

Luana Goes Soares da Silva's legacy lies in her meticulous research and commitment to advancing the field of Materials Engineering. As she continues her academic journey, her future contributions are anticipated to further enrich our understanding of novel materials and their applications.

In summary, Luana Goes Soares da Silva's academic and professional journey exemplifies dedication, innovation, and a deep commitment to advancing the frontiers of knowledge in Materials Engineering. Her contributions, both past, present, and future, position her as a trailblazer in her field.

Notable Publication:

Photocatalytic properties of TiO2 and TiO2/WO3 films applied as semiconductors in heterogeneous photocatalysis  2018 (43)

Analysis of colorimetry using the CIE-L*a*b* system and the photocatalytic activity of photochromic films  2018 (8)

Absorbance determination and photocatalytic production of hydrogen using tungsten and TiO2 oxide nanostructures As catalyst 2021 (4)

Facile Synthesis by Peroxide Method and Microwave-Assisted Hydrothermal Treatment of TiO2 with High Photocatalytic Efficiency for Dye Degradation and Hydrogen Production  2018 (4)