Dr. Yuncai jiang | Physics and Materials Science | Best Researcher Award

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Dr. Yuncai jiang | Physics and Materials Science | Best Researcher Award

Southeast University | China 

Author Profile 

Scopus 

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Summary

Yuncai jiang is an emerging scholar whose academic journey bridges chemical engineering and electronic materials. currently a ph.d. candidate at southeast university, his research focuses on two-dimensional materials, van der waals heterostructures, and the etching mechanisms of silicon carbide. with over ten sci-indexed publications, two national patents, and co-authorship of a specialized book on black phosphorus, he is making meaningful contributions to optoelectronics and semiconductor surface engineering. through his interdisciplinary work and active participation in collaborative projects, he promotes innovation, knowledge dissemination, and newcomer socialization in scientific communities.

Early academic pursuits

Yuncai jiang began his academic journey in chemical engineering and technology, earning his bachelor of science from guizhou institute of technology. driven by a passion for advanced materials and device engineering, he pursued a master’s degree in chemical engineering at kunming university of science and technology, completing it. during these formative years, he cultivated a strong foundation in materials chemistry, which laid the groundwork for his transition into the interdisciplinary field of electronic science and technology. his ability to navigate between chemical and electronic domains reflects a deep commitment to research excellence and newcomer socialization in emerging scientific communities.

Professional endeavors

Currently a ph.d. candidate in electronic science and technology at southeast university in nanjing, china, yuncai jiang focuses on the study of two-dimensional (2d) materials and semiconductor surface engineering. his graduate and doctoral work involves a combination of theoretical modeling and experimental techniques to design novel nanomaterials and heterostructures for optoelectronic and energy-related applications. through various research roles, jiang has become an integral part of academic collaborations, contributing to both national and international projects that emphasize innovation and newcomer socialization in cross-disciplinary teams.

Contributions and research focus

Yuncai Jiang's research spans the preparation and electrochemical exfoliation of black phosphorus nanosheets, development of 2d iv–vi semiconductor materials, and design of van der waals heterostructures for photovoltaic conversion. he is particularly known for his in-depth work on the wet and dry etching mechanisms of silicon carbide (sic), offering atomic-level insights through first-principles simulations. his research approach integrates defect and strain engineering to enhance the thermoelectric properties of nanomaterials, contributing significantly to the broader field of low-dimensional materials. he has published over ten sci-indexed papers and holds two authorized invention patents, which highlight his dedication to high-impact science.

Impact and influence

Yuncai jiang's interdisciplinary work has made an influential mark on the field of 2d materials and optoelectronics. his book, preparation and applications of black phosphorus co-authored with leading experts, serves as a valuable academic resource. his research findings not only contribute to scientific literature but also have practical implications for device fabrication, energy harvesting, and surface treatment in semiconductors. he continues to foster newcomer socialization among young researchers through academic collaborations and mentorship.

Academic cites

With more than ten publications in reputed sci journals and two national patents, yuncai jiang’s work is gaining increasing citations across multiple domains, including material science, electronics, and chemical engineering. his contributions to black phosphorus synthesis and silicon carbide processing are often referenced by researchers developing next-generation sensors and energy conversion devices.

Legacy and future contributions

As a rising scholar, yuncai jiang aims to deepen his research on van der waals heterostructures, explore next-generation 2d semiconductors, and optimize etching techniques for wide-bandgap materials. his interdisciplinary methodology, grounded in both chemistry and electronics, positions him well to lead future innovations in nanotechnology and renewable energy devices. he is also committed to building inclusive academic environments that support newcomer socialization and knowledge transfer across disciplines.

Publications 

Title: Initial dissociative absorption study of HF etchants on Si (0001) and C (0001¯) faces with differently terminated 4H–SiC
Author(s): Y. Jiang, S. Lei, Z. Zhou, C. Hung, Z. Li
Journal: Surfaces and Interfaces

Title: Enhanced Thermoelectric Performance of T-MoTe₂ Monolayers via Cluster Substitution and Strain Engineering
Author(s): Shuangying Lei, Yuncai Jiang, Zixian Li, Yanbo Zhao
Journal: Journal of Alloys and Compounds

Title: High Thermoelectric Performance and Low Lattice Thermal Conductivity in 2D Topological Insulators MBiH (M = Ga, In): A First-Principles Study
Author(s): Shuangying Lei, Zixian Li, Yuncai Jiang, Yanbo Zhao, Xiaodong Huang, Qingan Huang
Journal: ACS Applied Nano Materials

Title: PbSn(CH₃)₂ and PbSn(C₂H)₂ Monolayers as Rashba-Effect-Induced Two-Dimensional Topological Insulators for Thermoelectric Applications: A First-Principles Investigation
Author(s): Shuangying Lei, Yuncai Jiang, Zixian Li, Yanbo Zhao, Xiaodong Huang, Qingan Huang
Journal: ACS Applied Nano Materials

Title: Dual-Emitting Mn⁴⁺/Mn⁵⁺ in Ba₆Na₂Nb₂P₂O₁₇ phosphors for enhanced NIR-I and NIR-II spectroscopy applications
Author(s): Quan Zhang, Zetian Yang, Wei Hu, Maxime Delaey, Lihong Yin, Yuncai Jiang, Shuangying Lei, Henk Vrielinck, Dirk Poelman
Journal: Chemical Engineering Journal

Conclusion 

Yuncai jiang exemplifies the next generation of researchers driving progress in nanotechnology and energy materials. his dedication to cross-disciplinary integration and deep technical insight has advanced both theoretical understanding and real-world applications in 2d materials. as he continues to expand his research and foster newcomer socialization among peers, his work is poised to influence the future of low-dimensional materials and sustainable technologies. his career trajectory reflects both promise and purpose, making him a valuable contributor to global scientific advancement.

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. Wei Qiang – Advanced Materials Engineering – Best Researcher Award

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Dr. Wei Qiang - Advanced Materials Engineering - Best Researcher Award

Xi'an Shiyou University - China 

Author Profile

SCOPUS

Early academic pursuits 🎓

Wei Qiang embarked on his academic journey with a bachelor’s degree in material forming and control engineering at nanjing university of science and technology under the guidance of professor kehong wang. his dedication to the field of materials science deepened as he pursued a ph.d. in materials science and engineering from the same institution, also supervised by professor wang. during this period, wei honed his expertise in advanced welding technologies, laying the foundation for his future contributions to the discipline.

Professional endeavors 🏫

since april 2018, wei qiang has served as a lecturer at the college of materials science and engineering, xi’an shiyou university. in this role, he combines teaching with cutting-edge research, mentoring the next generation of materials scientists while contributing to advancements in welding and additive manufacturing. his academic career reflects a seamless integration of education and innovation, fostering a collaborative environment for scientific growth.

Contributions and research focus 🔬

Wei qiang’s research focuses on advanced welding processes, particularly in dual heat source and v-shaped coupling welding technologies. his work explores the formation mechanisms, thermal-stress distribution, and process optimization of welding in materials like aluminum alloys. his studies also extend to additive Advanced Materials Engineering manufacturing using gas tungsten arc welding (gta), demonstrating innovative approaches to improve material properties and manufacturing efficiency. through experimental and simulation-based methodologies, his research addresses critical challenges in materials processing.

Accolades and recognition 🏅

Wei’s scholarly contributions are reflected in his publications in renowned journals such as the journal of materials research and technology and journal of Advanced Materials Engineering manufacturing processes. his studies on v-shaped coupling welding and double-sided heat source processes have garnered attention for their innovative approaches and practical implications. his recognition in the field highlights his role as a key contributor to advancements in materials science.

Impact and influence 🌍

through his pioneering research, wei qiang has significantly influenced the field of welding and materials processing. his work on numerical simulations and innovative welding techniques provides valuable insights for industrial applications, particularly in aerospace and automotive sectors. by advancing the Advanced Materials Engineering understanding of welding dynamics, he contributes to the development of sustainable and efficient manufacturing practices.

Legacy and future contributions 🔮

As a researcher and educator, wei qiang is committed to driving innovation in materials science. his ongoing work promises further breakthroughs in welding and additive manufacturing technologies. by mentoring young scientists and expanding the scope of his research, he ensures a lasting impact on the academic and industrial communities. his legacy is rooted in his dedication to solving complex challenges and fostering progress in the field.

Notable Publications

  1. Title: Process characteristics of V-shaped coupling dual GTA-based additive manufacturing
    Authors: Qiang, W., Wang, K., Gao, C., Lu, Y., Wen, G.
    Journal: Journal of Materials Research and Technology, 2023, 23, pp. 1968–1979
  2. Title: Numerical simulation of T-joint welding with cold wire filling and double heat sources
    Authors: Qiang, W., Lu, Y., Yuan, Y., Sun, C.
    Journal: Cailiao Kexue yu Gongyi/Material Science and Technology, 2021, 29(5), pp. 57–62
  3. Title: Microstructural analysis and mechanical behavior of TC4 titanium alloy and 304 stainless steel by friction stir lap welding
    Authors: Lu, Y., Xu, X., Zhang, B., Cao, J., Li, W.
    Journal: Welding in the World, 2021, 65(10), pp. 1915–1930
  4. Title: Forming characteristics and mechanism of double-sided heat source synergic vertical welding on an aluminum alloy
    Authors: Qiang, W., Wang, K., Wang, S., Lu, Y., Gao, Q.
    Journal: Journal of Manufacturing Processes, 2021, 64, pp. 356–368
  5. Title: Microstructure and wear resistance of TiB2/7075 composites produced via rheocasting
    Authors: Gao, Q., Yang, B., Gan, G., Wang, S., Lu, Y.
    Journal: Metals, 2020, 10(8), pp. 1–14, 1068