Ujjal Das | Main group Chemistry | Best Researcher Award

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Dr. Ujjal Das | Main group Chemistry | Best Researcher Award 

Institute of Inorganic Chemistry | Germany 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Ujjal Das embarked on his academic journey with a Bachelor of Science (B.Sc. Hons.) in Chemistry from Ramakrishna Mission Residential College, Narendrapur, University of Calcutta, where he graduated with first class honors and was the class topper in 2005. He then pursued a Master of Science (M.Sc.) in Chemistry at the Indian Institute of Technology Kanpur, graduating in 2007 with a CPI of 9.4, the second highest in his class. His master’s thesis focused on "Diamagnetic Anisotropy Induced by Mo−Mo Quadruply Bonded Species and its Oxidation to Polyoxomolybdate," under the supervision of Prof. Dr. J. K. Bera. Dr. Das continued his academic excellence by earning a Dr. rer. nat. (Ph.D.) in Chemistry from the Institute of Inorganic Chemistry, University of Bonn, with a summa cum laude distinction. His dissertation, titled "Closed-shell and Open-shell Ferracyclobutadienes – Syntheses, Characterization and Reactivity Studies," was supervised by Prof. Dr. A. C. Filippou.

PROFESSIONAL ENDEAVORS

Since August 2015, Dr. Das has held the position of Akademischer Rat a. Z. in the group of Prof. Dr. A. C. Filippou. Prior to this, he was a post-doctoral fellow in the same group from September 2014 to August 2015. His professional experience also includes significant research internships, such as working as a Project Assistant at IACS-Kolkata, India, and as a Graduate Research Assistant at Kansas University, USA. Additionally, he was a Summer Project fellow at Emory University, USA. These roles have contributed to his extensive expertise in main group chemistry, with a focus on low-valent heavier main group organometallics, chemical kinetics, electronic structure analysis, and NMR spectroscopy.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Das's primary research interests lie in the chemistry of heavier group 14 elements and metal-tetrel multiple bonds, with an emphasis on developing innovative chemical reactions. His work in main group chemistry has led to significant advancements in understanding and manipulating low-valent silicon compounds and related organometallics. He has supervised numerous Ph.D., Master's, and Bachelor's students, guiding their research in synthesizing and characterizing novel chemical compounds. His research contributions are reflected in his role in supervising theses on topics such as low-valent silicon compounds, silylidyne complexes, and disilenes.

IMPACT AND INFLUENCE

Dr. Ujjal Das has made a notable impact on the field of main group chemistry through his extensive research and innovative approaches. His studies have been widely recognized and cited in the academic community, contributing to the advancement of knowledge in the chemistry of heavier group 14 elements. His work has influenced the development of new chemical reactions and the understanding of electronic structures and reactivity of organometallic compounds. His contributions extend beyond research, as he has played a significant role in mentoring the next generation of chemists, fostering a collaborative and innovative research environment.

ACADEMIC CITATIONS

Dr. Das’s research has been extensively cited in various academic journals, underscoring the significance of his work in main group chemistry. His publications on low-valent heavier main group organometallics and their reactivity have provided valuable insights and have been referenced by researchers globally. His ability to bridge theoretical and practical aspects of chemistry has made his work a cornerstone in the field, influencing ongoing research and development.

LEGACY AND FUTURE CONTRIBUTIONS

Looking forward, Dr. Ujjal Das aims to continue his pioneering work in main group chemistry, with ambitions to lead the development of chemical science, education, and research. His future contributions are expected to further revolutionize the understanding and application of organometallic chemistry, especially involving heavier group 14 elements. His legacy will be marked by his dedication to scientific outreach and his influence on the academic and research community, ensuring continued innovation and excellence in the field.

MAIN GROUP CHEMISTRY 

Dr. Das's expertise in main group chemistry has positioned him as a leader in this specialized field. His work on low-valent silicon compounds and metal-tetrel multiple bonds has been pivotal, making significant strides in developing new chemical reactions and understanding the behavior of these compounds. The keywords main group chemistry encapsulate the core of his research and contributions, which continue to inspire and guide future studies in the discipline.

NOTABLE PUBLICATION

Alexandre Landry | Alternative theories of gravity | Best Researcher Award

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Dr. Alexandre Landry | Alternative theories of gravity | Best Researcher Award 

Dalhousie University | Canada 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Alexandre Landry began his academic journey at the Université de Montréal, where he earned a BSc in Physics in 2007. He continued his education with an MSc in Physics from Université Laval, followed by a MASc in Nuclear Engineering from Polytechnique Montréal. His academic prowess and dedication culminated in a Ph.D. in Physics from Université de Montréal, completed in 2020. His early academic pursuits were marked by a strong foundation in both theoretical and experimental physics, setting the stage for his future research in mathematical and gravitational physics.

PROFESSIONAL ENDEAVORS

Dr. Landry's professional career has been characterized by significant research and teaching roles. As a Postdoctoral Fellow at Dalhousie University from 2022 to 2024, he focused on advancing mathematical physics and gravitational theories. His previous experience as a Research Assistant at Bishop’s University and a Research Intern for the Picasso Project at Université de Montréal further enriched his research portfolio. His teaching roles at Dalhousie University included lecturing and tutoring various mathematics courses, demonstrating his commitment to education and mentorship.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Landry’s main research interests lie in mathematical physics, with a particular focus on gravitational physics. His work explores theoretical and phenomenological aspects of General Relativity and its alternative formulations and extensions, especially Teleparallel Gravity. His research also delves into the interplay between Quantum Physics and General Relativity, offering new insights into these complex fields. His contributions to alternative theories of gravity have been substantial, advancing the understanding of these theories and their implications for our understanding of the universe.

CITATIONS

  • Citations  131
  • indice h     8
  • indice i10  7

IMPACT AND INFLUENCE

Dr. Alexandre Landry’s impact and influence in the field of gravitational physics are evident through his extensive research and academic contributions. His work on alternative theories of gravity has been recognized by his peers and has significantly influenced ongoing research in the field. His publications, cited in numerous academic journals, underscore the importance and relevance of his research. Additionally, his role as an educator at Dalhousie University has allowed him to mentor and inspire the next generation of physicists, further extending his influence in the academic community.

ACADEMIC CITATIONS

Dr. Landry's research has garnered numerous academic citations, reflecting the profound impact of his work on the scientific community. His studies on alternative theories of gravity and their extensions to General Relativity have been widely referenced, highlighting the significance of his contributions. His work has provided a foundational basis for further research in these areas, influencing both theoretical explorations and practical applications in gravitational physics.

LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Dr. Alexandre Landry aims to continue his pioneering research in mathematical and gravitational physics. His future contributions are expected to further elucidate the complexities of alternative theories of gravity, potentially leading to groundbreaking discoveries that could reshape our understanding of the universe. His legacy will be defined by his significant contributions to science and his dedication to mentoring young researchers. Dr. Landry’s ongoing research promises to continue advancing the fields of mathematical physics and gravitational theory.

ALTERNATIVE THEORIES OF GRAVITY 

Dr. Alexandre Landry’s extensive research in alternative theories of gravity has significantly advanced the understanding of this complex field, integrating new theoretical insights with practical applications in cosmology. His innovative work in alternative theories of gravity has been recognized by his peers and extensively cited in academic journals, underscoring its impact. The future of alternative theories of gravity research continues to be shaped by his pioneering contributions and ongoing dedication to the field.

NOTABLE PUBLICATION

Giulia Maniccia | Quantum Gravity | Best Researcher Award 

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Ms. Giulia Maniccia | Quantum Gravity | Best Researcher Award 

Friedrich-Alexander-Universität Erlangen-Nürnberg | Italy 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Ms. Giulia Maniccia embarked on her academic journey at the Sapienza University of Rome, where she demonstrated exceptional dedication and talent in the field of physics. She completed her Bachelor’s Degree in Physics in 2018, graduating with a perfect score of 110/110 cum laude. She continued her studies at the same institution, earning her Master’s Degree in Theoretical Physics in 2020, again graduating with the highest honors. Her early academic pursuits laid a strong foundation for her specialization in quantum gravity and quantum cosmology.

PROFESSIONAL ENDEAVORS

Currently, Ms. Maniccia is a Visiting Research Fellow at the Institute for Theoretical Physics III at FAU University of Erlangen-Nurnberg. She is an active member of the Quantum Gravity Research Group at FAU and the CGM Research Group at Sapienza University of Rome. Her professional endeavors have focused on exploring the complexities of quantum gravity and quantum cosmology, contributing to the advancement of these fields through both research and teaching. Her roles have also included external advising for master’s theses and tutoring for bachelor’s courses, highlighting her commitment to education and mentorship.

CONTRIBUTIONS AND RESEARCH FOCUS

Ms. Maniccia's primary research areas encompass quantum gravity, quantum cosmology, and related fields. Her notable research projects include "Quantum gravity effects in bouncing cosmology" and "DARK: investigation of Dark Matter candidates using cosmological, astrophysical, and underground observations." Her work has led to the publication of nine core papers in internationally recognized academic journals. Her contributions have significantly advanced the understanding of quantum gravity, integrating new theoretical insights with practical applications in cosmology.

IMPACT AND INFLUENCE

Ms. Giulia Maniccia’s impact and influence in the field of quantum gravity are evident through her numerous conference contributions and invited seminars. Her research findings have been recognized by prestigious institutions such as the Clinical Research Centre of the University of Oxford and the Hong Kong Polytechnic University. Her work has been cited in top-tier journals like NATURE and ES&T, underscoring the significance and relevance of her contributions. Additionally, her involvement in various academic editorial boards and as a guest editor-in-chief further highlights her influence and leadership within the scientific community.

ACADEMIC CITATIONS

The academic citations of Ms. Maniccia’s work reflect the profound impact of her research on the scientific community. Her publications on quantum gravity and quantum cosmology have been extensively cited, demonstrating the importance and applicability of her findings. Her role as a reviewer for several SCI journals also indicates her respected status among her peers and her active contribution to the academic discourse in her field.

LEGACY AND FUTURE CONTRIBUTIONS

Looking to the future, Ms. Giulia Maniccia aims to continue her pioneering research in quantum gravity and quantum cosmology. Her ongoing projects and future contributions are expected to further elucidate the mysteries of the universe, potentially leading to groundbreaking discoveries in theoretical physics. Her legacy will be marked by her dedication to advancing scientific knowledge and her commitment to mentoring the next generation of physicists. Ms. Maniccia’s future contributions will undoubtedly shape the direction of research in quantum gravity and cosmology.

QUANTUM GRAVITY 

Ms. Giulia Maniccia's extensive research in quantum gravity has significantly advanced the understanding of this complex field, integrating theoretical insights with practical applications in cosmology. Her innovative work in quantum gravity has been recognized by prestigious institutions and extensively cited in top-tier journals, underscoring its impact. The future of quantum gravity research continues to be shaped by her pioneering contributions and ongoing dedication to the field.

NOTABLE PUBLICATION

Gang Li | Laser technology | Best Researcher Award 

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Mr. Gang Li | Laser technology | Best Researcher Award 

Dalian Institute of Chemical Physics Chinese Academy of Sciences | China

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Mr. Gang Li began his academic journey with a Bachelor of Science degree in Chemistry from Inner Mongolia University, where he developed a strong foundation in scientific principles and research methodologies. His early academic pursuits were characterized by a focus on chemistry and laser technology, which guided him toward advanced studies. He continued his education at the State Key Laboratory of Catalysis, Dalian Institute of Chemical Physics, Chinese Academy of Sciences, where he earned his Ph.D. His graduate research set the stage for his future contributions to the field of laser technology, marking the beginning of a distinguished career.

PROFESSIONAL ENDEAVORS

Since earning his Ph.D., Mr. Gang Li has held prominent positions at the Dalian Institute of Chemical Physics, Chinese Academy of Sciences. As an Assistant Researcher and Associate Researcher in Group 504, he has been actively involved in cutting-edge research and development projects in laser technology. His professional endeavors have included significant roles as the Director of the Chinese Society of Optical Engineering, Executive Director of the Technology Branch of China Instrument Society, and Vice Chairman of the Components and Materials Branch of the National Photonics Standards Committee. These roles have allowed him to shape the future of laser technology and contribute to the advancement of optical engineering standards.

CONTRIBUTIONS AND RESEARCH FOCUS

Mr. Li's research primarily focuses on high energy ultrashort pulse lasers, thin-disk laser amplifiers, and the manufacturing of strong light optical components. His notable contributions include the development of high-efficiency, high-repetition-rate cavity-dumped Q-switched Yb thin-disk lasers and advanced resonators with variable output coupling rates. His work on the morphology and chemistry of the Beilby layer on polished fused silica and the creation of fused silica with sub-angstrom roughness represents significant advancements in laser technology. His research emphasizes enhancing the performance of laser systems and developing innovative optical components for various applications.

IMPACT AND INFLUENCE

Mr. Gang Li's impact and influence in the field of laser technology are profound, demonstrated through his leadership roles and influential research. His work on high-energy ultrashort pulse lasers and thin-disk laser amplifiers has been widely recognized and cited in top-tier journals such as Optics Express and the Journal of the American Ceramic Society. His contributions to the field extend beyond research, as he has been instrumental in setting standards and guiding advancements in optical engineering. His leadership roles in prestigious organizations reflect his influence in shaping the future of laser technology and optical engineering.

ACADEMIC CITATIONS

The significance of Mr. Li’s research is evident from the high citation counts of his published papers. His representative works, such as those on high-efficiency Yb thin-disk lasers and sub-angstrom polished fused silica, are frequently cited in academic literature. This high citation rate underscores the importance of his contributions to laser technology and highlights the widespread impact of his research findings on the academic and scientific communities.

LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Mr. Gang Li aims to continue his pioneering work in the field of laser technology. His future contributions are expected to drive further innovations in high energy ultrashort pulse lasers, thin-disk laser amplifiers, and advanced optical components. As he progresses in his career, his legacy will be defined by his significant advancements in laser technology and his role in developing future generations of optical engineers. Mr. Li’s ongoing research and leadership will continue to influence the field and shape the future of laser technology.

LASER TECHNOLOGY 

Mr. Gang Li’s extensive research in laser technology has led to significant advancements in high energy ultrashort pulse lasers and thin-disk laser amplifiers. His work on laser technology innovations, such as high-efficiency Yb thin-disk lasers and advanced optical components, has been widely recognized and cited in top-tier journals. The future of laser technology will benefit from his continued research efforts and contributions to the field.

NOTABLE PUBLICATION

Jun Tu | Ultrasonic NDT | Best Researcher Award 

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Prof Dr. Jun Tu | Ultrasonic NDT | Best Researcher Award 

Hubei University of Technology | China 

 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Prof. Dr. Jun Tu began his academic journey in mechanical science and engineering at the Huazhong University of Science and Technology. Between 2002 and 2014, he completed his Bachelor, Master, and Doctoral degrees, establishing a solid foundation in the field. His educational background provided him with extensive knowledge and skills, particularly in the area of ultrasonic NDT (nondestructive testing), which would later become a significant focus of his research and professional endeavors.

PROFESSIONAL ENDEAVORS

Dr. Jun Tu's professional career commenced at the Hubei University of Technology, where he joined the School of Mechanical Engineering as a Lecturer in 2014. His expertise and dedication led to his promotion to Associate Professor in 2017, and eventually to Professor in 2022. In addition to his teaching roles, he serves as the Director of the Department of Instrument Science and Quality Engineering and the Deputy Director of the Hubei Nondestructive Testing Engineering Technology Research Center. He is also a member of the National Nondestructive Testing Society and the Hubei Nondestructive Testing Society, as well as a Nanhu Scholar at Hubei University of Technology. His professional roles have allowed him to significantly contribute to the advancement of ultrasonic NDT and other nondestructive testing techniques.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Jun Tu's research primarily revolves around the sensing principles, imaging detection methods, and engineering applications of electromagnetic acoustic nondestructive testing. He has led more than 10 projects, including those funded by the National Natural Science Foundation and Hubei Province key research and development programs. His work has resulted in the publication of over 50 academic papers and the authorization of more than 10 invention patents. His contributions to ultrasonic NDT have been widely recognized, earning him numerous teaching and scientific research awards. His innovative research has enhanced the understanding and application of nondestructive testing in various engineering fields.

IMPACT AND INFLUENCE

Dr. Jun Tu's impact on the field of nondestructive testing, particularly ultrasonic NDT, is substantial. His leadership in various research projects has pushed the boundaries of current technologies, resulting in more effective and efficient testing methods. His work has influenced both the academic community and the industry, providing new insights and techniques that are being applied in practical engineering contexts. His role in professional societies further amplifies his influence, as he actively contributes to the development and dissemination of knowledge within the field.

ACADEMIC CITATIONS

With over 50 academic papers to his name, Dr. Jun Tu's research has been widely cited in the academic community. His work on ultrasonic NDT and electromagnetic acoustic nondestructive testing methods is frequently referenced by researchers and practitioners alike. These citations highlight the relevance and impact of his research contributions, solidifying his reputation as a leading expert in the field.

LEGACY AND FUTURE CONTRIBUTIONS

Prof. Dr. Jun Tu aims to leave a lasting legacy in the field of nondestructive testing. His future contributions are expected to continue driving advancements in ultrasonic NDT and other nondestructive testing technologies. As he continues to mentor young researchers and lead innovative projects, his work will undoubtedly shape the future of nondestructive testing, ensuring its continued evolution and application in various engineering domains.

ULTRASONIC NDT 

Throughout his career, Dr. Jun Tu has significantly advanced the field of ultrasonic NDT. His research on the sensing principles and imaging detection methods in ultrasonic NDT has provided valuable insights and practical applications. The future of ultrasonic NDT looks promising with Dr. Tu's continued contributions and leadership.

NOTABLE PUBLICATION

Yanjun Li | Surface and Interface | Best Researcher Award

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Prof. Yanjun Li | Surface and Interface | Best Researcher Award 

Osaka University | Japan

 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Prof. Yanjun Li began her academic journey at the University of Tsukuba, Japan, where she earned her Master's degree from 1996 to 1998, followed by a Ph.D. in Engineering, completed in 2001. Her doctoral studies provided a solid foundation in the field of engineering, particularly in the areas of surface and interface interactions, which would become central themes in her subsequent research.

PROFESSIONAL ENDEAVORS

Following her Ph.D., Prof. Li joined the Institute for Molecular Science at the Okazaki National Research Institutes as a Research Fellow from 2001 to 2004. She then transitioned to Osaka University, where she served as a Visiting Associate Professor from 2004 to 2009, before being promoted to Associate Professor in 2010, a position she continues to hold. Her career at Osaka University has been marked by significant research achievements and contributions to the scientific community.

CONTRIBUTIONS AND RESEARCH FOCUS

Prof. Li’s research primarily focuses on the use of various forms of scanning probe microscopy (SPM), including atomic force microscopy (AFM) and Kelvin probe force microscopy (KPFM), to investigate the physical and chemical properties of materials. Her work aims to explore and elucidate new physical phenomena, with a particular emphasis on surface and interface interactions. This research is crucial for advancing our understanding of material properties at the nanoscale, which has broad applications in nanotechnology and materials science.

IMPACT AND INFLUENCE

Prof. Li has published over 150 papers in prestigious journals such as Nature Physics, Nature Communications, Nano Research, Nano Letters, ACS Nano, JACS, and Physical Review Letters. Her work has significantly impacted the field of nanoscience, particularly through her studies on surface and interface interactions. Over the past decade, she has secured 35 research projects funded by the Japanese government, including substantial grants for fundamental research. These projects have totaled approximately 400 million yen, underscoring the importance and recognition of her work.

ACADEMIC CITATIONS

Prof. Li’s extensive publication record and the high citation rates of her papers highlight her influence in the scientific community. Her research on surface and interface phenomena has garnered widespread attention, contributing to advancements in the understanding of material properties and the development of new technologies. The keywords "surface and interface" are central to her research, reflecting the core themes of her investigations.

LEGACY AND FUTURE CONTRIBUTIONS

Prof. Li's legacy is characterized by her pioneering work in scanning probe microscopy and her contributions to the study of surface and interface interactions. She has mentored 15 Ph.D. students to completion, many of whom have gone on to make their own significant contributions to the field. Her international collaborations with institutions such as Yale University, King’s College London, and the National Center for Nanoscience and Technology of China further extend her influence and foster cross-disciplinary research.

SURFACE AND INTERFACE 

Throughout her career, Prof. Li has emphasized the importance of studying surface and interface interactions. These keywords encapsulate the essence of her research, highlighting her focus on understanding the fundamental properties of materials at their boundaries. Her work continues to drive innovation in nanoscience, with ongoing projects and collaborations promising to yield new insights and applications in the future. Prof. Li’s contributions to the study of surface and interface phenomena ensure her place at the forefront of scientific research and innovation.

NOTABLE PUBLICATION

Jinzeng Wang | Optical properties of Lanthanide contained compounds | Best Researcher Award 

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Assoc Prof Dr. Jinzeng Wang | Optical properties of Lanthanide contained compounds | Best Researcher Award 

Shanxi Normal University | China


AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Assoc. Prof. Dr. Jinzeng Wang began his academic journey with a Ph.D. in Inorganic Chemistry from the Institut National des Sciences Appliquées Rennes (INSA Rennes, France) in 2020, where he studied under the guidance of Professor Olivier Guillou. His doctoral research focused on the synthesis and characterization of luminescent lanthanide-contained coordination polymers and hybrid compounds, which laid a strong foundation for his future research endeavors.

PROFESSIONAL ENDEAVORS

After completing his Ph.D., Dr. Wang joined the School of Chemistry and Materials Science at Shanxi Normal University in 2021 as an Assistant Professor. Demonstrating remarkable expertise and dedication, he was promoted to Associate Professor in 2023. His professional journey at Shanxi Normal University has been marked by significant contributions to both teaching and research, particularly in the field of inorganic chemistry.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Wang's primary research focus is on the design, synthesis, and application of luminescent lanthanide-contained coordination polymers and hybrid compounds. His work in this area has led to the publication of over 20 research articles in prestigious journals, including the Chemical Engineering Journal, Results in Physics, Inorganic Chemistry Frontiers, and Inorganica Chimica Acta. His research is known for advancing the understanding of the optical properties of lanthanide-contained compounds, which have numerous applications in various fields such as lighting, sensing, and bioimaging.

IMPACT AND INFLUENCE

Dr. Wang's research has significantly impacted the field of inorganic chemistry, particularly in the study of the optical properties of lanthanide-contained compounds. His innovative approaches to synthesizing these materials have opened new avenues for their application in advanced technologies. His work has been widely cited in academic literature, reflecting his influence and the importance of his contributions to the scientific community.

ACADEMIC CITATIONS

Dr. Wang's publications are highly regarded in the academic community, as evidenced by their frequent citations. His research on luminescent lanthanide-contained compounds has been particularly influential, providing valuable insights into their optical properties and potential applications. This recognition underscores the high quality and relevance of his work.

LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Dr. Wang aims to continue his pioneering research on the optical properties of lanthanide-contained compounds. His future work will likely focus on developing new materials with enhanced luminescent properties and exploring their practical applications in various technological fields. Dr. Wang's ongoing contributions are expected to further solidify his legacy as a leading researcher in inorganic chemistry and inspire future advancements in the study of luminescent materials.

OPTICAL PROPERTIES OF LANTHANIDE CONTAINED COMPOUNDS 

Throughout his career, Dr. Wang has emphasized the significance of optical properties of lanthanide-contained compounds in his research. These keywords encapsulate his dedication to understanding and enhancing the luminescent characteristics of these materials, which are crucial for their application in cutting-edge technologies. His work in this area continues to drive innovation and excellence in inorganic chemistry, ensuring his place at the forefront of scientific research.

NOTABLE PUBLICATIN

Xiaojin Yin | Spin-orbit coupling | Best Researcher Award 

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Dr. Xiaojin Yin | Spin-orbit coupling | Best Researcher Award 

Taiyuan University of Science and Technology | China

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Xiaojin Yin's academic journey began with a Bachelor's degree in Physics from Shanxi Normal University, completed in 2012. She then pursued higher education at Shenzhen University, obtaining a Master's degree in Optics in 2015, followed by a Ph.D. in Optical Engineering in 2020. Her early academic focus laid a solid foundation for her subsequent research in advanced optics and fiber technology.

PROFESSIONAL ENDEAVORS

Dr. Yin's professional career has been marked by her roles at Taiyuan University of Science and Technology. From September 2021 to December 2023, she served as a Lecturer in the School of Applied Sciences. Since December 2023, she has been an Associate Professor at the same institution. Her dedication to teaching and research has significantly contributed to the academic environment, inspiring students and colleagues alike.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Yin's research primarily focuses on advanced optical engineering, with significant contributions to the development and application of fiber optic technologies. Her work includes the study of spin-orbit coupling, spin angular momentum (SAM), and orbital angular momentum (OAM) in optical systems. As a Principal Investigator, she has led several significant projects, including the National Natural Science Foundation of China's Youth Science Foundation Project on fiber optic probe-based nanoparticle-metal film structures and their applications in near-field scanning imaging.

IMPACT AND INFLUENCE

Dr. Yin's influence extends beyond her immediate academic environment. She has been a part of several critical projects funded by the National Natural Science Foundation of China and the Shanxi Provincial Department of Science and Technology. Her research on the full vector characterization of near-field optical spins and the transmission characteristics of cylindrical vector vortex beams in optical fiber media has been groundbreaking. Her exploration of spin-orbit coupling and its implications in optical systems has garnered attention in the scientific community, influencing further research and applications.

ACADEMIC CITATIONS

Dr. Yin's work has been recognized through multiple patents and publications. Notable patents include a method for improving optical fiber transmission capacity and a portable device for glass stress testing. These innovations highlight her commitment to advancing optical technology and its practical applications. Her research has been cited extensively, reflecting its significance and impact on the field of optical engineering.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Yin aims to continue her research in spin-orbit coupling, SAM, and OAM in optical systems. Her future contributions are expected to further advance the understanding and application of these concepts in optical engineering. Her dedication to mentoring students and fostering a collaborative research environment ensures that her legacy will inspire future generations of scientists and engineers.

SPIN-ORBIT COUPLING/SAM/OAM 

Throughout her career, Dr. Yin has emphasized the study of spin-orbit coupling, SAM, and OAM in her research. These keywords encapsulate her focus on the intricate interactions within optical systems, which are central to her academic pursuits. Her exploration of these phenomena continues to drive her research and teaching, ensuring she remains at the forefront of advancements in optical engineering.

NOTABLE PUBLICATION

Sharmistha Rakshit | Thermodynamics | Best Researcher Award

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Dr. Sharmistha Rakshit | Thermodynamics | Best Researcher Award 

Brainware University | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Sharmistha Rakshit began her academic journey with a strong foundation in mathematics. She completed her B.Sc in Mathematics from Bankura Sammilani College under the University of Burdwan in 2013, securing 67.5%. She then pursued her M.Sc in Mathematics & Computing at IIT(ISM) Dhanbad, graduating in 2016 with an impressive 9.38 CGPA out of 10. Currently, she is finalizing her Doctor of Philosophy at the Indian Institute of Information Technology, Kalyani, where her research continues to advance the field of applied mathematics.

PROFESSIONAL ENDEAVORS

Dr. Rakshit has garnered significant teaching experience, starting as a Guest Lecturer in the Department of Mathematics at Shri Shikshayatan College from July 2017 to 2019. She also served as a Guest Lecturer in the Department of Commerce (Morning) at the same college from July 2018 to 2019. In July 2023, she took on the role of Assistant Professor in the Department of Mathematics at Brainware University, where she continues to contribute to academia.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Rakshit's research primarily focuses on wave propagation in various media, including porous piezoelectric composites and thermo-piezoelectric half-spaces. Her notable projects include working as a DST Project Fellow on the DST-SERB sponsored project titled “Investigate on the behavior of elastic waves propagation in double porous and porous-piezoelectric media.” She has presented papers at several prestigious conferences, including the 86th Annual Conference of the Indian Mathematical Society and the 66th Congress of the Indian Society of Theoretical and Applied Mechanics. Her research often intersects with thermodynamics, exploring the influence of wave characteristics in various materials.

CITATIONS

  • Citations   35
  • h-index     03
  • i10-index  01

IMPACT AND INFLUENCE

Dr. Rakshit has significantly impacted her field through her participation in international and national conferences. Her research on the propagation of surface waves in thermo-piezoelectric half-spaces and other related topics has been well-received, as evidenced by her presentations at conferences such as the Computational Methods in Science and Engineering (CMSE-2022). Her work contributes to a deeper understanding of thermodynamics and its application in mathematical models and wave propagation studies.

ACADEMIC CITATIONS

Dr. Rakshit's contributions have been recognized through various academic citations, reflecting the significance of her research in applied mathematics and thermodynamics. Her participation in and presentations at conferences have positioned her as an emerging voice in her field, with her work cited by peers and academics exploring similar areas of research.

LEGACY AND FUTURE CONTRIBUTIONS

Looking ahead, Dr. Rakshit aims to continue her research in thermodynamics and wave propagation, focusing on advancing the understanding and application of these concepts in mathematics and engineering. Her future contributions are expected to further solidify her standing in the academic community, inspiring students and fostering innovative research. Her commitment to teaching and mentoring will undoubtedly shape the next generation of mathematicians and engineers.

THERMODYNAMICS 

Throughout her career, Dr. Rakshit has emphasized the study of thermodynamics in her research. This keyword encapsulates her focus on the behavior and propagation of waves in various media, which is central to her academic pursuits. Her exploration of thermodynamics continues to drive her research and teaching, ensuring she remains at the forefront of advancements in applied mathematics.

NOTABLE PUBLICATION

Deepak Kumar Panda | Quantum Materials | Best Researcher Award 

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Assoc Prof Dr. Deepak Kumar Panda | Quantum Materials | Best Researcher Award 

Amrita Viswa Vidyapeetam | India 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Assoc. Prof. Dr. Deepak Kumar Panda embarked on his academic journey with a strong foundation in Electronics and Communication Engineering. He completed his B.Tech from the National Institute of Science and Technology, BPUT Odisha, in 2010, with a CGPA of 7.45. His pursuit of higher education led him to IIT Kharagpur, where he obtained an M.Tech in Electronics and Communication Engineering (VLSI) in 2014, with a CGPA of 8.14. He further specialized in the field, earning a Ph.D. in “Compact Model Development of E-mode GaN MOS-HEMT for RF Front End Receiver” from NIT Silchar in 2018, with a CGPA of 8.75 in coursework. His early academic focus laid a robust groundwork for his future research in quantum materials and their applications in VLSI design.

PROFESSIONAL ENDEAVORS

Dr. Panda has an extensive teaching career, currently serving as an Associate Professor at Amrita Viswa Vidya Peetham, Amaravati Campus, since July 2023. Prior to this, he was an Associate Professor at VIT-AP University, Amaravati, Andhra Pradesh, from November 2018 to June 2023. His earlier positions include Assistant Professor roles at VIT-AP University and National Institute of Science and Technology, Brahmapur, Odisha. His teaching expertise covers a wide range of subjects, including Digital VLSI Design, Analog and Digital Electronics Circuit, HDL Verification Methodology, and more. He is also proficient in various VLSI EDA tools and programming languages, enhancing his capability to teach and guide students in complex technical domains.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Panda's research interests are deeply rooted in the development of compact models for quantum materials like GaN HEMT for RFIC design. His notable projects include the Ph.D. work on “Compact Model Development of E-mode GaN HEMT for RF Front End Applications” and his M.Tech project on “Design and Simulation of SiGe-HBTs.” He has also worked on the design and simulation of SONOS memory during his B.Tech. His research contributions are instrumental in advancing the understanding and application of quantum materials in electronic devices, particularly in the realm of VLSI design and RF front end applications.

CITATIONS

  • Citations   867
  • h-index     17
  • i10-index  31

IMPACT AND INFLUENCE

Dr. Panda's work in quantum materials has had a significant impact on the academic and research community. His innovative approaches and successful execution of projects have garnered him research grants, including 8 Lakhs from Cadence Design for "Compact Model Development of GaN HEMT for RFIC Design" and 2 Lakhs from VIT-AP University. He has also guided several Ph.D. students to completion, contributing to the next generation of researchers in this field. His role as a Research Coordinator at Amrita Viswa Vidya Peetham and his involvement in organizing IEEE conferences highlight his influence and leadership in the academic community.

ACADEMIC CITATIONS

Dr. Panda's research work has been cited extensively, reflecting the significance of his contributions to the field of quantum materials and VLSI design. His participation in industry-oriented VLSI and Cadence training courses, along with his experience in designing UMC 180 nm ICs in collaboration with Sankalp Semiconductor, underscores his practical expertise and industry relevance. His administrative roles, including serving as the MOOC Coordinator and SPOC for the SWAYAM NPTEL Local Chapter at VIT-AP University, further demonstrate his commitment to enhancing academic programs and resources.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Panda aims to continue his pioneering research in quantum materials, focusing on developing advanced models and applications in VLSI and RFIC design. His future contributions are expected to drive innovation in electronic engineering, particularly in the integration of quantum materials into mainstream technology. His dedication to teaching, mentorship, and research excellence will leave a lasting legacy, inspiring students and researchers to explore new frontiers in electronics and communication engineering. Dr. Panda's career objective of associating with dynamic institutions aligns with his ongoing efforts to stay at the forefront of technological advancements and academic excellence.

QUANTUM MATERIALS 

Throughout his career, Dr. Panda has consistently focused on the study and application of quantum materials. His research efforts in this area aim to explore and develop innovative solutions that advance technology and industry. The keyword quantum materials encapsulates the core of his research focus, emphasizing the interdisciplinary and transformative nature of his work. His expertise in quantum materials continues to pave the way for new discoveries and technological advancements.

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