Gulzat Nuroldayeva | Electrochromic Devices | Best Researcher Award

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Ms. Gulzat Nuroldayeva | Electrochromic Devices | Best Researcher Award

Gulzat Nuroldayeva | Nazarbayev University | Kazakhstan

Ms. Gulzat Nuroldayeva is a PhD candidate in Chemistry at Nazarbayev University, specializing in the chemistry and technology of organic substances, natural compounds, polymers, and advanced electrochemical materials. She holds a Bachelor’s degree in Chemical Technology of Organic Substances from Al-Farabi Kazakh National University and a Master of Science in Chemistry from Nazarbayev University. Her professional experience includes laboratory and research roles at KazTransOil, Lanolin LLP, and the Institute of Batteries, where she contributed to projects on oil purification, organic synthesis, and the development of lithium-ion and electrochromic batteries. Gulzat’s research focuses on the synthesis, purification, and characterization of organic compounds and the design of functional materials for sustainable energy storage applications. Her publications have received notable citations, reflecting the impact of her work in electrochemistry and material science. She has demonstrated strong technical expertise in analytical techniques such as NMR, chromatography, and electrochemical testing, alongside leadership in collaborative research initiatives. Recognized for her academic excellence and contributions to innovative battery technologies, Gulzat Nuroldayeva represents a new generation of scientists dedicated to advancing green energy solutions through interdisciplinary chemical research.

Profiles: Google Scholar | Scopus

Featured Publications

1. Nuroldayeva, G., Serik, Y., Adair, D., Uzakbaiuly, B., & Bakenov, Z. (2023). State of health estimation methods for lithium-ion batteries. International Journal of Energy Research, 2023(1), 4297545.

2. Nuroldayeva, G., & Mannix, B. P. (2023). Flexing the spectrum: Advancements and prospects of flexible electrochromic materials. Polymers, 15(13), 2924.

3. Nuroldayeva, G., Adair, D., & Bakenov, Z. (2023). Revealing phase transition in Ni-rich cathodes via a nondestructive entropymetry method. ACS Omega.

4. Nuroldayeva, G., Umurzak, T., Kireyeva, A., Aishova, A., Mukhan, O., Kim, S. S., … & Bakenov, Z. (2025). A comparative study of bulk and surface W-doped high-Ni cathode materials for lithium-ion batteries. Nanoscale, 17(13), 8192–8205.

5. Amire, N., Almagambetova, K. M., Turlykul, A., Taishybay, A., Nuroldayeva, G., … & Bakenov, Z. (2022). Triflic acid-promoted post-Ugi condensation for the assembly of 2,6-diarylmorpholin-3-ones. Organic & Biomolecular Chemistry, 22(48), 9379–9387.

 

Dr. Han Zhang | Materials Science | Best Researcher Award

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Dr. Han Zhang | Materials Science | Best Researcher Award

Doctor at Northeastern University, China

Han Zhang is a dedicated and skilled researcher in metallurgical engineering, currently pursuing her Ph.D. at Northeastern University, China. Her research focuses on electromagnetic metallurgy, steel refining, and numerical simulation of multiphase flows, with significant contributions to the understanding of tundish flow behavior and inclusion removal. She has authored several high-quality publications in leading international journals, demonstrating both technical depth and innovation. Han is proficient in advanced simulation tools such as OpenFOAM, ANSYS, and Fluent, and actively participates in national research projects and academic conferences. Her strong foundation in both theory and practical application is supported by previous experience in industrial fluid systems and flow metering. While still developing her international collaborations and independent research leadership, Han Zhang shows exceptional potential as a rising researcher. Her work contributes meaningfully to the advancement of high-quality steel production and reflects a high level of academic commitment and technical excellence.

Professional Profile 

ORCID Profile 

Education

Han Zhang has a solid academic foundation in metallurgical engineering. She earned her bachelor’s degree from Chongqing University of Science and Technology in 2015, focusing on mineral composition and phase structure analysis in sintered ores. She then completed her master’s degree in steel metallurgy at Northeastern University in 2018, where she studied the behavior of molten steel in tundishes with channel-type induction heating through numerical simulations. Continuing at Northeastern University, she began her Ph.D. in 2020 at the Key Laboratory of Electromagnetic Processing of Materials, focusing on advanced refining and casting technologies. Her doctoral research emphasizes the electromagnetic control of molten steel flow, multiphase modeling, and process optimization. Throughout her academic journey, she has demonstrated consistent excellence in both theoretical understanding and applied research. Her progression from undergraduate to Ph.D. reflects a focused and deepening commitment to solving complex metallurgical challenges using cutting-edge computational and experimental approaches.

Professional Experience

Han Zhang has accumulated valuable professional experience that bridges academic research and industrial practice. From 2018 to 2020, she worked as an Assistant Engineer at the Liaoning Institute of Industrial Fluid Science, where she focused on industrial flow metering optimization and energy-saving technologies. Her work involved the design, manufacturing, and maintenance of flow metering devices, contributing to more efficient fluid systems in industrial operations. Concurrently, she enhanced her technical skills in instrumentation and data analysis, which later supported her doctoral research. Before this role, during her master’s and doctoral studies at Northeastern University, she engaged in multiple funded research projects related to electromagnetic processing and molten metal flow. Her hands-on experience with numerical simulation platforms, fluid modeling, and industrial-scale measurement devices positions her as a researcher with both academic insight and real-world engineering competence. This combination of research and industry exposure enables her to approach metallurgical challenges with practical and impactful solutions.

Research Interest

Han Zhang’s research interests lie in the interdisciplinary fields of metallurgical engineering, electromagnetic processing, and computational modeling. Her primary focus is on the behavior of molten steel during secondary refining and continuous casting, especially under the influence of electromagnetic fields. She investigates flow characteristics, inclusion behavior, and residence time distribution (RTD) within tundishes and reactors using advanced multiphase modeling techniques such as Euler-PBM coupling. She also explores intelligent alloy prediction and process control using machine learning and high-performance computing. Her studies aim to improve steel cleanliness, casting efficiency, and product quality in high-grade steel manufacturing. In addition, Han is skilled in using simulation platforms like OpenFOAM, ANSYS Fluent, and CFX for modeling fluid flow and heat transfer, which support her innovative approaches in virtual process optimization. Her work is both theoretically rich and industrially relevant, reflecting a strong alignment with current and emerging challenges in the steel industry.

Award and Honor

While specific awards and honors are not detailed in the available profile, Han Zhang’s achievements are reflected through her active involvement in prestigious national research projects and high-quality journal publications. She has contributed to major funded research supported by the National Natural Science Foundation of China and central university grants, which indicates recognition of her academic capabilities and research potential. Her inclusion as a first or co-author in respected journals such as Steel Research International and Metallurgical and Materials Transactions B highlights her scientific merit. Participation in international conferences and symposia further reflects her recognition in the academic community. Additionally, she holds the National Computer Proficiency Certificate (Level 2), and her consistent academic progression and technical excellence suggest strong internal recognition within her institution. Though no individual accolades are listed, her publication record and research leadership stand as honors in themselves, positioning her as a promising candidate for future academic and industry awards.

Conclusion

Han Zhang is an emerging talent in metallurgical engineering, combining strong academic training, practical industry experience, and a research focus aligned with pressing technological needs in steel production. Her work on electromagnetic processing, inclusion removal, and molten metal behavior demonstrates deep technical understanding and innovative problem-solving skills. With multiple first-author publications in high-impact journals, participation in national-level research, and a firm command of simulation technologies, she stands out as a capable and driven researcher. While she continues to build her international profile and independent leadership, her achievements thus far mark her as a strong candidate for research awards and academic recognition. Her dual strengths in computation and practical engineering provide her with a unique edge in advancing both the science and industry of metallurgy. Han Zhang is well-positioned to contribute significantly to the future of high-performance materials processing and is a valuable asset to any academic or research institution.

Publications Top Notes

1. Two‑Way PBM–Euler Model for Gas and Liquid Flow in the Ladle

  • Title: Two‑Way PBM–Euler Model for Gas and Liquid Flow in the Ladle

  • Journal: Materials

  • DOI: 10.3390/ma16103782

  • Published Date: May 17, 2023

  • Citations: 2–3 (based on public sources like ResearchGate and Google Scholar)

2. Deep Insight into the Pinch Effect in a Tundish with Channel‑Type Induction Heater

  • Title: Deep Insight into the Pinch Effect in a Tundish with Channel‑Type Induction Heater

  • Journal: Steel Research International

  • DOI: 10.1002/srin.202200181

  • Published Date: September 2022

  • Citations: Exact count not publicly listed, but cited in subsequent related works

Lakshmi Devaraj | Materials for Energy Storage | Best Review Article Award

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Assist Prof Dr. Lakshmi Devaraj | Materials for Energy Storage | Best Review Article Award

Assistant Professor, PSG College of Arts and Science, India

🏆 Congratulations to Assistant Professor Dr. Lakshmi Devaraj from PSG College of Arts and Science, India, for receiving the prestigious Best Review Article Award in the field of Materials for Energy Storage! Dr. Devaraj’s exemplary work and dedication have earned them recognition for their significant contributions to advancing knowledge in this vital area of research. This accolade not only highlights Dr. Devaraj’s expertise but also underscores the importance of their research in addressing the global challenges of energy storage. We extend our heartfelt congratulations to Dr. Lakshmi Devaraj and look forward to their continued success in academia. 🎉

Profile

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Linkedin

Professional Experience

👨‍🏫 Starting my journey as an Entry-Level Assistant Professor in Physics at PSG College of Arts and Science, Coimbatore, India, on March 1, 2022, has been a fulfilling experience. Prior to this role, I served as a Research Associate at Prof. Christopher Selvin’s Luminescence and Solid State Ionics Lab, Bharathiar University, Coimbatore, India, from April 10, 2019, to February 28, 2022. In this position, funded by CSIR, Government of India, I delved into green alloy synthesis, high entropy alloy synthesis, crystal structure simulation, and grant writing. Earlier, I served as a Lecturer at VSB College of Engineering: Technical Campus, India, from July 10, 2012, to June 5, 2013. 🌟

Education

👨‍🎓 With a diverse academic background, I hold a PhD in Physics (2013-2018) from Avinashilingam Institute for Home Science and Higher Education for Women, India. My doctoral research, funded by DST-INSPIRE and supervised by Dr. B. Nalini, focused on enhancing the performance of tin antimonide anodes for all-solid-state batteries. Prior to my PhD, I completed an MSc in Physics (2010-2012) from Avinashilingam Deemed University for Women, India, achieving a CGPA of 9.1/10. My master’s thesis involved studying barium titanate thin films using the spin coating technique, presented at the AMEEA-2012 conference. I commenced my academic journey with a BSc in Physics (2006-2009) from NGM College of Arts and Science, Bharathiar University, India, graduating with a CGPA of 8.4/10. 📚

Research, Innovations and Extension

🔬 With a remarkable track record, they are a dedicated researcher specializing in Li-Ion Batteries and related materials. Their extensive publication record includes 28 research publications in esteemed peer-reviewed international journals and 03 international book chapters, contributing to their robust publication record. With three pending research projects in the final stages, they boast an h-index of 9. Actively engaging in 30 scientific events, including 15 conferences and seminars, they showcase effective knowledge dissemination abilities. Securing prestigious research grants like the DST-ISNPIRE Fellowship, CSIR-RA, and CEFIPRA-ESONN international fellowship, they’ve also demonstrated strong communication and collaboration skills, fostering productive partnerships globally. Their involvement in academic teaching and mentoring underscores their commitment to advancing research and education in the field. 🌟

Publications Top Notes

  1. Augmented photocatalytic and electrochemical activities of Ag tailored LaCoO3 perovskite semiconductor
    • Year: 2018
    • Citations: 32
    • 📝
  2. Study on the influences of calcination temperature on structure and its electrochemical performance of Li2FeSiO4/C nano cathode for lithium ion batteries
    • Year: 2018
    • Citations: 28
    • 🔋
  3. Reinforced photocatalytic reduction of SnO2 nanoparticle by La incorporation for efficient photodegradation under visible light irradiation
    • Year: 2019
    • Citations: 20
    • 💡
  4. Performance of SnSb: Ce, Co alloy as anode for lithium-ion batteries
    • Year: 2017
    • Citations: 20
    • 🔋
  5. Electro analytical studies on indium incorporated SnSb alloy anode for Li-ion batteries
    • Year: 2017
    • Citations: 16
    • 🔋
  6. Enhanced visible light photocatalytic performance of SnO2 nanoparticle co-doped with (Co, Nb) for organic dye degradation
    • Year: 2020
    • Citations: 15
    • 💡
  7. Augmented conductivity in Li3xLa2/3−xTiO3 nanoparticles: all-solid-state Li-ion battery applications
    • Year: 2020
    • Citations: 12
    • 🔋
  8. Structural rearrangement by Ni, Cr doping in zinc cobaltite and its influence on supercapacitance
    • Year: 2021
    • Citations: 9
  9. Chitosan based biopolymer electrolyte reinforced with V2O5 filler for magnesium batteries: an inclusive investigation
    • Year: 2022
    • Citations: 7
    • 🔋
  10. Tamarind seed polysaccharide biopolymer-assisted synthesis of spinel zinc iron oxide as a promising alternate anode material for lithium-ion batteries
    • Year: 2020
    • Citations: 7
    • 🔋