Priya Rani | Theoretical Condensed Matter Physics | Best Researcher Award

Posted on by ScienceFather

Dr. Priya Rani | Theoretical Condensed Matter Physics | Best Researcher Award 

Central university of Haryana | India

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Priya Rani's academic journey began with exceptional performance in her school years, securing 93.4% in her matriculation from HBSE in 2011. She pursued her higher secondary education in Physics, Chemistry, Mathematics, English, and Hindi, achieving 80% in 2013. Dr. Rani continued her undergraduate studies in Physics, Chemistry, and Mathematics at Govt. College for Women, Hisar, Kurukshetra University, where she graduated with first position in her college, scoring 77.1% in 2016. She earned her M.Sc. in Physics from Guru Jambheshwar University of Science & Technology (GJU S & T), Hisar, in 2018, with an impressive 78.9%. Her academic excellence was evident throughout, and she was awarded the Junior Research Fellowship (JRF) by UGC-CSIR in 2022.

PROFESSIONAL ENDEAVORS

Dr. Priya Rani's professional journey is marked by her significant contributions to the field of Theoretical Condensed Matter Physics. She completed her Ph.D. from GJU S & T, Hisar, with a focus on the theoretical study of electronic and optical properties of quantum dots under the supervision of Prof. Sunita Srivastava and Dr. Ranjeet. She has published eight research papers, five of which are at the Scopus level, with a total of 57 citations, an h-index of 5, and an i10 index of 1. Dr. Rani has been a reviewer for prestigious journals such as the New Journal of Physics, Physica Scripta, and the Journal of Physics: Condensed Matter. She has also actively participated in 23 conferences and workshops, delivering 11 oral presentations and 6 poster presentations, winning the Best Poster Award at MMMCN-2023.

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Rani's research primarily focuses on Theoretical Condensed Matter Physics, with specialization in density functional theory-based first principles software like SIESTA and Gaussian, and effective mass approximation-based software like Quantum Dot Lab. Her expertise extends to general theoretical physics, condensed matter physics, computer simulation and modeling, and quantum dots. Her Ph.D. thesis on the theoretical study of electronic and optical properties of quantum dots showcases her profound understanding and innovative approach to this specialized field. She is particularly interested in the optoelectronic properties of quantum dots and their applications in bio-imaging and bio-sensing.

CITATIONS

  • Citations   57
  • h-index     05
  • i10-index  01

IMPACT AND INFLUENCE

Dr. Priya Rani's research has significantly impacted the field of Theoretical Condensed Matter Physics, contributing to the understanding and development of quantum dots for various applications. Her work is highly regarded in the academic community, as evidenced by her citations and the recognition she has received through awards and presentations. As a Guest Faculty member at GJU S & T, Hisar, and the Central University of Haryana, she has influenced and mentored many students, imparting her knowledge and expertise in advanced quantum mechanics, optics, semiconductor physics, mathematical physics, mechanics, and electricity and magnetism.

ACADEMIC CITES

Dr. Rani's publications and research contributions are widely cited in academic literature, underscoring the relevance and impact of her work in Theoretical Condensed Matter Physics. Her studies on the electronic and optical properties of quantum dots are frequently referenced by other researchers, highlighting the importance of her findings in advancing the field. Her role as a reviewer for several high-impact journals further demonstrates her influence and standing in the scientific community.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Priya Rani's legacy is built on her dedication to advancing the field of Theoretical Condensed Matter Physics. Her innovative research on quantum dots and their applications continues to inspire and guide future research in this domain. As an active member of academic committees and associations, she plays a crucial role in shaping the future of physics research and education. Her future contributions are expected to further enhance the understanding of quantum materials and their practical applications, cementing her place as a leading figure in her field.

NOTABLE PUBLICATION

Nazanin Mohseninia | Solid-State Physics | Best Scholar Award

Posted on by ScienceFather

Ms. Nazanin Mohseninia | Solid-State Physics | Best Scholar Award 

Semnan University | Iran

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Ms. Nazanin Mohseninia's academic journey began with a strong foundation in mathematics and physics, earning her diploma from Bentolhoda High School with a commendable GPA of 17.87/20. She pursued a Bachelor's degree in Physics at Damghan University, followed by a Master's degree in Applied Thin Film Physics from the Material and Energy Research Center (MERC). Her master's thesis focused on the preparation of novel nano-structural carbon films using atmospheric pressure plasma deposition techniques, earning a dissertation grade of 17.75/20.

PROFESSIONAL ENDEAVORS

Ms. Mohseninia has accumulated diverse work experience, starting with teaching high school physics at Modaresan Sharif Educational Institute and a charitable school in Shahrud, Iran. She then designed books and banners for conferences at MERC and worked as a quality control manager at an LED lamp manufacturing facility. Currently, she is affiliated with the Faculty of Physics at Semnan University, where she assists in developing curricula, teaches general physics, and instructs doctoral students on the principles of Quantum Espresso.

CONTRIBUTIONS AND RESEARCH FOCUS

Ms. Mohseninia's research focus lies in Solid-State Physics and materials science, particularly the study and application of graphene-based materials. Her work involves performing Density Functional Theory (DFT) calculations to investigate the structural and electronic properties of these materials. She has explored the effectiveness of graphene-based materials in pollutant absorption, enhancing the understanding of their potential environmental applications. Her research also includes the synthesis of thin films and their applications in various technologies.

IMPACT AND INFLUENCE

Ms. Mohseninia's contributions to Solid-State Physics are reflected in her numerous presentations and collaborations. She has delivered oral presentations at national and international conferences, such as the 9th International Congress on Nanoscience & Nanotechnology (ICNN2022) and the 12th International Conference on Science and Development of Nanotechnology in Tbilisi, Georgia. Her participation in executive committees for various scientific congresses highlights her active engagement in the scientific community.

ACADEMIC CITES

Ms. Mohseninia has made significant strides in her field, evidenced by her academic publications and conference presentations. Her work on nano-structural carbon films and graphene-based materials has been cited in several scientific papers, contributing to advancements in Solid-State Physics and materials science. Her ability to communicate complex ideas through presentations and publications has established her as a knowledgeable and influential figure in her domain.

LEGACY AND FUTURE CONTRIBUTIONS

Ms. Nazanin Mohseninia's legacy is rooted in her dedication to advancing the field of Solid-State Physics. Her future contributions will likely continue to focus on innovative research in material simulations and the development of graphene-based materials for environmental applications. Her ongoing work at Semnan University, combined with her extensive experience and academic background, positions her to make significant advancements in her field and mentor the next generation of physicists and researchers.

SOLID-STATE PHYSICS

Ms. Mohseninia's expertise in Solid-State Physics encompasses a wide range of skills and knowledge, from thin film deposition techniques to advanced computational simulations. Her proficiency in Quantum Espresso and other material simulation software has allowed her to explore and optimize the properties of graphene-based materials. Her research on pollutant absorption by these materials not only advances the field but also offers practical solutions to environmental challenges. Through her academic and professional endeavors, Ms. Mohseninia continues to make meaningful contributions to Solid-State Physics and its applications.

NOTABLE PUBLICATION

 

Sarantuya Lkhagvajav | Solid State Physics | Best Researcher Award

Posted on by ScienceFather

Dr. Sarantuya Lkhagvajav | Solid State Physics | Best Researcher Award 

Institute of Physics and Technology | Mongolia 

AUTHOR PROFILE

EARLY ACADEMIC PURSUITS

Dr. Sarantuya Lkhagvajav’s academic journey began in Mongolia, where she attended Secondary School No. 2 in Arvaikheer, Uvurkhangai province, graduating in 2006. She then pursued higher education at the Mongolian University of Science and Technology, earning her Bachelor's degree in Engineering Physics with a thesis on "Theoretical Studies of Hydrogen Storage in Nanostructured AlCu, Al12Cu Systems," achieving the highest grade of "A". She continued her studies at the same university, obtaining a Master's degree in Engineering Physics, focusing on "Hydrogen Storage in Nanostructured Metal Clusters" and again earning an "A". Dr. Lkhagvajav completed her Ph.D. at the Mongolian National University, where her research on "Study of Spinel Lithium Titanate Anode for Lithium Ion Batteries" further established her expertise in Solid state physics.

PROFESSIONAL ENDEAVORS

Dr. Lkhagvajav's professional career has been closely tied to the Mongolian Academy of Sciences, where she has worked at the Institute of Physics and Technology since 2010. Initially a researcher in the Department of Material Science, she has advanced to become the Head of the Energy Research Laboratory. Her work involves leading various projects funded by the Ministry of Education and Culture of Mongolia. Key projects include the study of nanostructured materials, technological investigations of new nanoscale materials, preparation and characterization of rare earth-containing materials, and the development of lithium-ion battery technology. In 2022-2023, she led a project on the study and development of battery technology for application and recycling of spent NiMH batteries, highlighting her continued contributions to Solid state physics.

CITATIONS

  • Zitate       30
  • h-index    03
  • i10-index 01

CONTRIBUTIONS AND RESEARCH FOCUS

Dr. Lkhagvajav's research focuses on Solid state physics, particularly in the areas of nanostructured materials and energy storage systems. Her work on hydrogen storage in nanostructured metal clusters and spinel lithium titanate anodes for lithium-ion batteries showcases her expertise in material science and nanotechnology. She has also contributed to the preparation and characterization of rare earth materials and the technological investigation of graphene-based new materials. Her leadership in projects investigating battery technology underscores her commitment to advancing energy research and sustainable technology solutions.

IMPACT AND INFLUENCE

Dr. Lkhagvajav’s impact on the field of Solid state physics is evident through her extensive research and numerous awards. She has been recognized for her contributions with awards such as the Honorary Certificate of the Mongolian Academy of Sciences and the Mitsubishi Corporation International Scholarship. Her participation in the 66th Lindau Nobel Laureate Meeting dedicated to Physics marks her recognition on a global scale. Additionally, her work has significantly influenced the development of nanomaterials and energy storage solutions in Mongolia.

ACADEMIC CITES

Throughout her career, Dr. Lkhagvajav has made notable contributions to academia, evidenced by her active role in mentoring and leading research projects. Her work has been cited in various academic publications, contributing to the broader scientific understanding of nanostructured materials and their applications in energy storage. Her leadership in research projects funded by the Mongolian government highlights her influence and the practical impact of her work on national technological advancements.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Lkhagvajav's legacy in the field of Solid state physics is characterized by her pioneering research and leadership in nanomaterials and energy storage systems. Her future contributions are likely to further advance the understanding and application of nanotechnology in sustainable energy solutions. As she continues to lead innovative projects and mentor the next generation of researchers, her influence will extend beyond Mongolia, contributing to global advancements in Solid state physics.

SOLID STATE PHYSICS

Dr. Lkhagvajav’s expertise in Solid state physics is reflected in her comprehensive research on hydrogen storage, lithium-ion batteries, and nanostructured materials. Her work on the technological investigation of lithium-ion batteries and the preparation of rare earth materials demonstrates her deep understanding of the physical properties and potential applications of solid-state materials. Her continued research and development in this field are expected to yield significant advancements in energy storage and material science.

NOTABLE PUBLICATION