Zilin Zhong | Analytical Techniques | Research Excellence Award

Published on by Analytical Chemistry

Dr. Zilin Zhong | Analytical Techniques | Research Excellence Award

Guangzhou Railway Polytechnic | China

Zhong Zilin is a researcher specializing in the dynamic stability of arch and plate structures, with expertise spanning structural mechanics, intelligent piezoelectric systems, artificial intelligence recognition, and vocational education. His work focuses on understanding and controlling nonlinear dynamic behaviors in arches and thin plates, particularly under multi-frequency, harmonic, and random excitations. He has led multiple research projects involving arch-shaped energy harvesters, nonlinear vibration energy acquisition in composite arches, active control of piezoelectric intelligent structures, and out-of-plane stability of high-strength steel arch bridges, while also contributing to national-level studies on dynamic stability under complex excitations. His publications cover analytical, numerical, and experimental investigations into parametric resonance, simultaneous resonance, and stochastic stability of arches and plates, including studies on concentrated masses, viscoelastic materials, and functional graded composite structures. In addition to journal papers, he has contributed patents and software related to structural vibration testing and railway-track monitoring technologies. Through his combined roles as a researcher and educator, he advances both theoretical understanding and practical engineering applications in structural dynamics and intelligent sensing for rail transit and civil infrastructure.

Profiles : Scopus | ORCID 

Featured Publications

Shen, F., Zhong, Z., Xu, X., Li, J., Dong, Q., & Deng, J. (2025). In-plane simultaneous resonance instability behaviors of a fixed arch under a two-frequency radial uniformly distributed excitation. International Journal of Non-Linear Mechanics, 174, 105056.

Zhong, Z., Liu, A., Guo, Y., Xu, X., Deng, J., & Yang, J. (2023). Sub-harmonic and simultaneous resonance instability of a thin-walled arch under a vertical base excitation at two frequencies. Thin-Walled Structures, 191, 111094.

Zhong, Z., Liu, A., Fu, J., Pi, Y.-L., Deng, J., & Xie, Z. (2021). Analytical and experimental studies on out-of-plane dynamic parametric instability of a circular arch under a vertical harmonic base excitation. Journal of Sound and Vibration, 500.

Zhong, Z., Liu, A., Pi, Y.-L., Deng, J., Fu, J., & Gao, W. (2021). In-plane dynamic instability of a shallow circular arch under a vertical-periodic uniformly distributed load along the arch axis. International Journal of Mechanical Sciences, 189, 105973.

Zhong, Z., Liu, A., Pi, Y.-L., Deng, J., Lu, H., & Li, S. (2019). Analytical and experimental studies on dynamic instability of simply supported rectangular plates with arbitrary concentrated masses. Engineering Structures, 196, 109288.

Nigora Qutlimurotova | Analytical Chemistry | Analytical Chemistry Award

Published on by Analytical Chemistry

Prof. Nigora Qutlimurotova | Analytical Chemistry | Analytical Chemistry Award

Professor | National university of Uzbekistan | Uzbekistan

Professor Qutlimurotova Nigora Khakimovna, D.Sc., is an accomplished analytical chemist and faculty member at the National University of Uzbekistan, renowned for her contributions to modern chemical analysis, particularly in the optical and electrochemical determination of heavy, toxic, and rare metal ions. With a solid academic foundation built at the National University of Uzbekistan, where she completed her B.Sc., M.Sc., and postgraduate studies in Analytical and Inorganic Chemistry, she progressed through academic roles from senior lecturer to professor, demonstrating consistent excellence in teaching, research, and scientific leadership. Her research focuses on developing innovative electrochemical and spectroscopic techniques for environmental monitoring, food quality control, and trace element analysis addressing pressing global needs for sensitive, fast, and reliable detection methods. Since earning her D.Sc. degree, Professor Qutlimurotova has produced over 100 scientific and methodological publications, including 28 papers in SAC-listed journals and 4 high-impact international journal articles, reflecting her scientific productivity and growing contribution to the field. Her notable recent works involve designing carbon quantum dots, novel organic ligands, and cyclic voltammetric systems for detecting biologically and environmentally significant ions such as vanadate, zirconium, cobalt, copper, and biomolecules like DNA and albumin. With an h-index of 2 (Web of Science & Scopus), she is steadily expanding her research visibility. Beyond research, she has enriched academic resources by authoring 8 educational handbooks, 3 methodological guides, and 1 monograph, and holds a patent for advanced scandium ion extraction technology, underscoring her innovative capabilities in separation chemistry. As a respected member of national scientific councils and chair of key academic committees, she actively contributes to advancing analytical chemistry education, mentoring young scholars, and promoting scientific excellence in Uzbekistan. Her broad engagement in scientific, social, and educational initiatives reflects her commitment to impactful research and community advancement.

Profiles : Scopus | ORCID | Google Scholar

Featured Publications

  • Agafonova, L. E., Bulko, T. V., Pronina, V. V., Qutlimurotova, N. H., & Shumyantseva, V. V. (2025). Carbon quantum dots in the electroanalysis of DNA and albumin. Bionanoscience, 15(3), 358.

  • Allambergenova, F., Smanova, Z., Qutlimurotova, N., Qutlimurotova, R., & Yakhshinorov, K. (2025). Synthesis of carbon dots based on chitosan and melamine and their application in detecting vanadate (V) anions. Chinese Journal of Analytical Chemistry, 53(7), Article 100538.

  • Kuronboyev, D., Faizullayeva, M., Kutlimurotova, N., Zulyarova, N., & Abdirahmonova, A. (2025). Development of a method for cyclic voltammetric determination of Copper(II) ions in the composition of technological objects. Chemical Review and Letters, 8(3), 469–481.

  • Karabayeva, G., Qutlimurotova, N., Yakhshieva, Z., Atakulova, N., & Tursunqulov, J. (2025). Development of a cyclic voltammetric method for the determination of Cobalt(II) ions using o-nitrosophenol. International Journal of Analytical Chemistry, 2025(1), Article 6675527.

  • Tursunqulov, J., Qutlimurotova, N., Fayzullayeva, M., Aliev, N., & Hosseini-Bandegharaei, A. (2025). Electrochemical determination of zirconium ions using 1-(2-hydroxy-1-naphthoyazo)-2-naphthol-4-sulphonic acid as a novel reagent. International Journal of Environmental Analytical Chemistry, 105(12), 2916–2939.