Prof. Dr. Ae Ran Lim – Solid State Physics – Best Researcher Award

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Prof. Dr. Ae Ran Lim - Solid State Physics - Best Researcher Award

Jeonju University - South Korea

Author Profile 

GOOGLE SCHOLAR

🎓 Early academic pursuits

Ae Ran Lim began her academic journey in the field of applied physics at dankook university, earning her bachelor of science degree in 1983. she pursued her passion for solid-state physics at korea university, where she completed her master's degree in 1985 and continued further to obtain her ph.d. in 1989. during her doctoral studies, she conducted significant research on ferroelastic materials, which laid the foundation for her lifelong engagement with materials science and power electronics.

👩‍🏫 Professional endeavors

Dr. Lim's career has been marked by dynamic academic and research roles across the globe. she started as a visiting student at brown university in 1987 and later held key positions such as Solid State Physics post-doctoral fellow at the university of massachusetts at amherst, and senior researcher at the korea research institute of standards and science. since 1992, she has served as a professor at jeonju university in both the graduate school of carbon convergence engineering and the department of science education. her international engagements as a visiting professor at cornell university, seoul national university, and other leading institutions highlight her global influence in applied physics and power electronics.

🔬 Contributions and research focus

Ae Ran Lim has built a strong research portfolio centered around solid-state and polymer physics. her key interests span ferroelectric materials, ferroelasticity, crystal growth, nuclear magnetic Solid State Physics resonance, and advanced polymers. through her interdisciplinary approach, she has bridged traditional physics with modern applications such as power electronics, enhancing device efficiency and material functionality. her research contributes to the development of high-performance materials for sensors, memory devices, and advanced polymer-based electronics.

🌐 Impact and influence

Professor lim's work has influenced both academic and industrial sectors. with decades of experience, her teaching and research have nurtured many students who now contribute to korea’s scientific progress. her expertise in ferroelectric and ferroelastic materials has had practical applications in nanotechnology, polymer sciences, and power electronics, contributing to material innovations and standardization in electronic device engineering. she has received prestigious honors, including the young scientist award by the korean physical society and the prime minister's award for science and technology promotion.

📊 Academic cites and recognition

Dr. Lim has been consistently recognized for her contributions to physics and engineering. she has been awarded the best research award at jeonju university nearly every year from 1995 to 2025. her extensive publication history and citation record in international journals reflect the academic community's respect for her work in crystal growth and material characterization. her Solid State Physics pioneering contributions in nuclear magnetic resonance and its applications in polymers and power electronics are frequently cited in advanced materials research.

🏅 Legacy and future contributions

Ae Ran Lim’s career embodies dedication to science, innovation, and education. as she continues her tenure at jeonju university, she is poised to shape future advancements in carbon convergence technologies and sustainable materials. her legacy lies not only in her published work but also in the students she has mentored and the global research networks she has cultivated. looking forward, her focus on smart materials and eco-friendly polymers signals promising contributions to emerging areas in power electronics and green technologies.

Notable Publications 

  • Title: Prominent ferroelastic domain walls in BiVO₄ crystal
    Author(s): A.R. Lim, S.H. Choh, M.S. Jang
    Journal: Journal of Physics: Condensed Matter

  • Title: Twin structure by ¹³³Cs NMR in ferroelastic CsPbCl₃ crystal
    Author(s): A.R. Lim, S.Y. Jeong
    Journal: Solid State Communications

  • Title: Domain wall of ferroelastic BiVO₄ studied by transmission electron microscopy
    Author(s): A.R. Lim, K.H. Lee, S.H. Choh
    Journal: Solid State Communications

  • Title: Nuclear magnetic resonance of ²⁰⁹Bi in a BiVO₄ single crystal
    Author(s): A.R. Lim, S.H. Choh, M.S. Jang
    Journal: Journal of Physics: Condensed Matter

  • Title: Continuous synthesis of structurally uniform graphene oxide materials in a model Taylor–Couette flow reactor
    Author(s): M. AlAmer, A.R. Lim, Y.L. Joo
    Journal: Industrial & Engineering Chemistry Research

Dr. Priyanka Nayak – Experimental Condensed Matter Physics – Best Researcher Award

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Dr. Priyanka Nayak - Experimental Condensed Matter Physics - Best Researcher Award

Amity university, Jharkhand - India

Author Profile 

GOOGLE SCHOLAR 

Early academic pursuits 🎓

Priyanka Nayak embarked on her academic journey with a b.sc. in physics from ravenshaw university, cuttack, odisha, where she graduated with an impressive 77.9% in 2014. her passion for physics led her to pursue an m.sc. in the same field at veer surendra sai university of technology, burla, odisha, securing an outstanding 85% in 2016. determined to deepen her expertise, she completed her ph.d. in physics from the national institute of technology, rourkela in july 2023, with a cgpa of 8.95. her academic foundation is a testament to her dedication and excellence in the field of condensed matter physics.

Professional endeavors 🏫

Currently serving as an assistant professor at the amity institute of applied sciences, amity university, ranchi, priyanka has made significant strides in both teaching and research. her teaching focuses on the core principles of physics, inspiring future scientists and researchers. at amity, she integrates her research experience into the curriculum, providing students with insights into the latest advancements in physics, particularly in the fields of solid-state lighting and luminescent materials.

Contributions and research focus 🔍

Priyanka’s research is centered on solid-state lighting technology and phosphor materials, which are key to improving energy efficiency in modern electro-optical devices. her work has broad applications in areas like energy conservation, display devices, and lighting sources, making significant contributions toward reducing global energy consumption. in addition to lighting technology, she explores phosphors with miniaturized structures and intriguing properties, studying their effects Experimental Condensed Matter Physics  on bulk properties through core-shell structures. her research extends to spectroscopic applications such as non-invasive temperature thermometry, latent fingerprint visualizations, and security ink for anti-counterfeiting, making her contributions highly relevant to modern scientific and technological needs.

Accolades and recognition 🏅

Priyanka's research achievements have been recognized by her peers in the scientific community. her rigorous work on luminescence and optical materials has not only earned her a doctoral degree from a prestigious institution but also a respected position as an educator at amity university. her academic accomplishments, Experimental Condensed Matter Physics including an excellent cgpa during her ph.d. and top grades during her master's and bachelor's studies, speak to her dedication and prowess in the field of physics.

Impact and influence 🌍

Priyanka’s work in solid-state lighting and energy-efficient materials is timely and impactful, addressing key global challenges such as energy consumption and greenhouse gas emissions. her research contributes to the development of new, efficient light sources and other technological innovations, promoting sustainability Experimental Condensed Matter Physics and energy security. her work on luminescent materials also plays a crucial role in advancing security technologies and forensic applications, further extending her influence across various fields of science.

Legacy and future contributions 🔮

Priyanka Nayak’s legacy is one of innovation and dedication to pushing the boundaries of material science and optical physics. her continued focus on improving energy efficiency and developing new applications for luminescent materials positions her as a forward-thinking researcher in her field. looking ahead, priyanka is Experimental Condensed Matter Physics poised to make further breakthroughs in energy-efficient lighting, advanced materials, and spectroscopic applications, contributing to both academic knowledge and practical technological advancements.

Notable Publications

  • Yb-Mn dimer tailored upconversion luminescence in CaWO4: Er3+/Yb3+/Mn2+ green phosphors for thermometry and optical heating
    Authors: P. Nayak, S.S. Nanda, S. Pattnaik, V.K. Rai, R.K. Sharma, S. Dash
    Journal: Optics & Laser Technology, 2023
  • Enhanced luminescence and Judd-Ofelt analysis in SiO2 encapsulated CaWO4@ CaWO4: Eu: Bi for visualization of latent fingerprints and anti-counterfeiting
    Authors: P. Nayak, S.S. Nanda, S. Dash
    Journal: Applied Surface Science, 2023
  • Tunable luminescence of Eu3+‐activated CaWO4 nanophosphors via Bi3+ incorporation
    Authors: P. Nayak, S.S. Nanda, R.K. Sharma, S. Dash
    Journal: Luminescence, 2020
  • Simultaneous influence of Mg2+ and Sc3+ co-doping on upconversion luminescence and optical thermometry in β-NaYF4: Yb3+/Ho3+ microphosphor
    Authors: S.S. Nanda, P. Nayak, S. Pattnaik, V.K. Rai, S. Dash
    Journal: Journal of Alloys and Compounds, 2023
  • Structural, optical spectroscopy and energy transfer features of Tb3+-activated (Y, Gd)F3 nanophosphors for UV-based LEDs
    Authors: S.S. Nanda, P. Nayak, S.K. Gupta, N.S. Rawat, U.K. Goutam, S. Dash
    Journal: New Journal of Chemistry, 2022