TIRTHA RAJ ACHARYA - Materials Science and Engineering - Environmental Impact Reduction Award

Kwangwoon University - South Korea

EARLY ACADEMIC PURSUITS

TIRTHA RAJ ACHARYA embarked on his academic journey with a Bachelor's degree in Physics from Tribhuvan University, Nepal, followed by a Master's degree in the same field. His early academic pursuits laid a solid foundation for his subsequent research endeavors, particularly in the field of nanoscience and nanotechnology.

PROFESSIONAL ENDEAVORS

As a committed Ph.D. candidate specializing in plasma physics at Kwangwoon University, Seoul, TIRTHA RAJ ACHARYA has engaged in both teaching and research assistance roles. He has supported undergraduate students in laboratory activities and electronics experiments, fostering their understanding of non-thermal plasma applications and fundamental circuit design crucial for plasma generation.

CONTRIBUTIONS AND RESEARCH FOCUS

TIRTHA RAJ ACHARYA's research focus centers on non-thermal plasma physics, with applications spanning environmental remediation, metal nanoparticle synthesis, and biomedical applications. His doctoral thesis on "Plasma-Assisted Environmental Remediation and Metal Nanoparticle Synthesis" underscores his commitment to addressing real-world challenges through innovative plasma-based solutions.

IMPACT AND INFLUENCE

TIRTHA RAJ ACHARYA's contributions to the field of plasma physics have been recognized through various awards and accolades, including Best Student Poster Presentation Awards from prestigious organizations like the Korean Vacuum Society (KVS). His research presentations and publications have helped disseminate knowledge and drive advancements in the field of materials science and engineering.

ACADEMIC CITES

TIRTHA RAJ ACHARYA's research findings have been disseminated through presentations at international conferences and symposiums, contributing to the academic discourse on plasma-assisted environmental remediation, metal nanoparticle synthesis, and plasma-based applications in various domains.

LEGACY AND FUTURE CONTRIBUTIONS

As TIRTHA RAJ ACHARYA completes his Ph.D. program and prepares to embark on the next phase of his career, his legacy in materials science and engineering is poised to grow. Armed with a diverse skill set and a proven track record of scholarly achievement, he is well-positioned to make significant contributions to the field and drive innovation in plasma-based technologies.

NOTABLE PUBLICATION

EARLY ACADEMIC PURSUITS:

Vusala Nabi Jafarova began her academic journey at Baku State University, earning a Bachelor's degree from 1998 to 2002. She continued her pursuit of knowledge with a Master's degree at Baku State University from 2002 to 2004. Her commitment to academic excellence and passion for physics laid the foundation for her future endeavors.

PROFESSIONAL ENDEAVORS:

With an academic background in physics, Vusala Nabi Jafarova has made significant contributions to the field. Her roles include serving as an Associate Professor in Physics at Azerbaijan State Oil and Industry University in Baku, Azerbaijan. In this capacity, she has written scholarly articles, collaborated on research projects, and played a pivotal role in shaping the academic experiences of students. Additionally, her experience as a Postdoctoral Research Fellow at the Institute of Physics of MSE Republic of Azerbaijan showcases her commitment to advancing knowledge in the field.

CONTRIBUTIONS AND RESEARCH FOCUS:

Jafarova's contributions to the field of physics are notable, encompassing scholarly articles, papers, and books. Her work involves directing high-level research, collaborating with students and colleagues, and modernizing syllabi to reflect the latest research and techniques. As a Postdoctoral Research Fellow, she has delivered oral presentations at national and international conferences, published scientific manuscripts, and supervised students in successful research projects. Her focus on theoretical physics, material sciences, and DFT simulations underscores her diverse and impactful contributions.

Structural and electronic properties of ZnO: A first-principles density-functional theory study within LDA(GGA) . 2021 (40) Phonon Spectra of Chain TlSe and TlInSe₂: Density Functional Theory Based Study. 2008 (13) Magnetic Properties of Vacancies and Doped Chromium in a ZnO Crystal. 2018 ( Electronic structure and effective masses of TlInSe₂ under pressure. 2017 (6) Debye temperatures and Grueneisen parameters of chain TlSe and TlInSe2. 2009 (6)