Mr. Artem Savikovskii | Best Researcher Award

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Mr. Artem Savikovskii | Best Researcher Award

Peter the Great Saint-Petersburg Polytechnic University | Russia

Artem Victorovich Savikovskii is a Postdoctoral Research Engineer at Peter the Great St. Petersburg Polytechnic University, Saint Petersburg, Russian Federation. With an h-index of 2, 10 Scopus-indexed documents, and 23 citations from 15 sources, his growing academic influence reflects a strong foundation in computational and structural mechanics. Dr. Savikovskii earned his bachelor’s and master’s degrees in Applied Mechanics (2012–2018) from Peter the Great St. Petersburg Polytechnic University, where he also completed his Ph.D. studies in Applied Mathematics and Mechanics. His research primarily focuses on finite element modeling, fracture mechanics, computational elasticity, nonlinear analysis, and thermo-mechanical behavior of anisotropic materials. His recent publications, including in the International Journal of Engineering Science, address the mechanics of surface damage and crack interaction in anisotropic materials. He has also contributed to studies on thermal fatigue and stress intensity factors in materials with cubic symmetry. Throughout his career, Dr. Savikovskii has demonstrated exceptional skills in computational mechanics, advancing the understanding of material anisotropy and structural failure analysis. His work continues to contribute to modern applied mechanics and materials science, bridging theoretical modeling and practical engineering solutions.

Profiles : Scopus | Research Gate | Orcid

Featured Publications

Savikovskii, A. V., Semenov, A. S., & Kachanov, M. L. (2024). Influence of material anisotropy on the mechanics of surface damage. International Journal of Engineering Science, 199, 104025. https://doi.org/10.1016/j.ijengsci.2024.104025

Savikovskii, A. V., Gordeev, A. N., Michailov, A. A., Antonova, O. V., & Semenov, A. S. (2023). Numerical aspects of the J-integral estimation for thermomechanical loading. In Proceedings of the International Conference on Structural Integrity (pp. 203–214). Springer. https://doi.org/10.1007/978-3-031-37246-9_12

Savikovskii, A. V., & Semenov, A. S. (2023). Influence of material anisotropy on the interaction between cracks under tension and shear. Journal of Applied Mechanics and Technical Physics, 64(10), 1452–1461.

Savikovskii, A. V. (2020). Crystallographic orientation, delay time, and mechanical constants influence on thermal fatigue strength of single-crystal nickel superalloys. Materials Physics and Mechanics, 44(1), 115–124. https://doi.org/10.18720/MPM.4412020_15

Savikovskii, A. V., Semenov, A. S., & Getsov, L. B. (2019). Coupled thermo-electro-mechanical modeling of thermal fatigue of single-crystal corset samples. Materials Physics and Mechanics, 42(3), 45–54. https://doi.org/10.18720/MPM.4232019_5

Savikovskii, A. V., Semenov, A. S., & Getsov, L. (2018). Analysis of crystallographic orientation influence on thermal fatigue with delay of the single-crystal corset sample by means of thermo-elasto-visco-plastic finite-element modeling. MATEC Web of Conferences, 245, 10006. https://doi.org/10.1051/matecconf/201824510006

Prof. Biao Xiao | Best Researcher Award

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Prof. Biao Xiao | Best Researcher Award

Jianghan University | China

Dr. Biao Xiao is an Associate Professor at Jianghan University in Wuhan, Hubei Province (China). He earned his Ph.D. from South China University of Technology in 2015. After completing his doctorate, he worked as a senior engineer at TCL Corporate Research and then completed a post-doctoral research fellowship at China University of Petroleum (East China) from 2016 to 2018. Since July 2018 he has been on the faculty at Jianghan University. His current research focuses on novel optoelectronic materials and devices, especially for organic solar cells, quantum-dot LEDs, and related interfacial engineering and morphology design. His publication record includes over 40 journal articles (for example in Energy & Environmental Science, Journal of Materials Chemistry A) and his works have garnered thousands of citations. Dr. Xiao is also a member of the Youth Working Committee of the China Materials Research Association since 2022. With his sustained research outputs, focus on device-performance + stability, and industrial + academic experience, he is positioned to make strong contributions to the optoelectronic materials field.

Profile : Orcid

Featured Publications

Cai, P., Song, C., Lei, S., Yu, K., Ding, L., Wang, D., Chen, G., Peng, H., Li, B., Wang, X., & Xiao, B. (2023). A robust and thickness-insensitive hybrid cathode interlayer for high-efficiency and stable inverted organic solar cells. Journal of Materials Chemistry A, 11(45), 24410–24420. https://doi.org/10.1039/d3ta03365a

Lei, S., Xiao, Y., Yu, K., Xiao, B., Wan, M., Zou, L., You, Q., & Yang, R. (2023). Revisiting hole injection in quantum dot light-emitting diodes. Advanced Functional Materials, 33(29), 2305732. https://doi.org/10.1002/adfm.202305732

Zhong, T., Guo, F., Lei, S., Xiao, B., Li, Q., Jia, T., Wang, X., & Yang, R. (2023). Multi-scale mechanical properties of bulk-heterojunction films in polymer solar cells. npj Flexible Electronics, 7, 8. https://doi.org/10.1038/s41528-023-00236-5

Xiao, B. (2022). Enhanced photovoltaic performance of donor polymers effected by asymmetric π-bridges. Polymer Chemistry, 13(35), 5258–5265. https://doi.org/10.1039/d2py00954d

Xiao, B. (2022). Over 17% efficiency all-small-molecule organic solar cells based on an organic molecular donor employing 2D side-chain symmetric-breaking strategy. Energy & Environmental Science, 15(11), 4986–4994. https://doi.org/10.1039/d2ee02107b

Luo, Y., Wang, X., Zhang, M., Sun, X., Saparbaev, A., Lei, S., Zhang, J., Xiao, B., & Yang, C. (2022). High-efficiency semi-transparent organic solar cells using pentacyclic aromatic lactam-containing terpolymer strategy for eco-friendly greenhouse application. Solar RRL, 6(12), 2200679. https://doi.org/10.1002/solr.202200679

Assist. Prof. Dr. Akeem Adewale | Best Researcher Award

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Assist. Prof. Dr. Akeem Adewale | Best Researcher Award

Ladoke Akintola University of Technology Ogbomoso | Nigeria

Dr. Akeem Adekunle Adewale is a distinguished materials physicist and Senior Lecturer in the Department of Pure and Applied Physics at Ladoke Akintola University of Technology, Ogbomoso, Nigeria. He earned his Ph.D. in Materials Engineering from Universiti Malaysia Perlis, Malaysia, following his M.Sc. and B.Sc. degrees in Physics from the University of Ilorin, Nigeria. With a prolific academic career, Dr. Adewale has authored 25 scientific documents, accumulated over 201 citations, and achieved an h-index of 9. His research focuses on computational materials science, density functional theory (DFT), nanotechnology, and optoelectronic and thermoelectric materials modeling. Dr. Adewale’s studies have significantly contributed to understanding the structural, electronic, optical, and thermoelectric properties of advanced materials such as perovskites, semiconductors, and nanocomposites. His works have been published in reputed journals including Materials Today Communications, Heliyon, Physica Scripta, and Computational Condensed Matter. Prior to his current role, he served as a Lecturer in Physics and Materials Science at Kwara State University, Nigeria. Dr. Adewale continues to advance frontiers in materials modeling for renewable energy and semiconductor technologies. His outstanding contributions to materials research position him as a leading scholar in the field of computational materials science.

Profiles : Scopus | Google Scholar | Research Gate | Orcid

Featured Publications

Adewale, A. A., Chik, A., Adam, T., Yusuff, O. K., Ayinde, S. A., & Sanusi, Y. K. (2021). First principles calculations of structural, electronic, mechanical and thermoelectric properties of cubic ATiO3 (A= Be, Mg, Ca, Sr and Ba) perovskite oxide. Computational Condensed Matter, 28, e00562.

Adewale, A. A., Chik, A., Adam, T., Joshua, T. M., & Durowoju, M. O. (2021). Optoelectronic behavior of ZnS compound and its alloy: A first principle approach. Materials Today Communications, 27, 102077.

Olatomiwa, A. L., Adam, T., Edet, C. O., Adewale, A. A., Chik, A., Mohammed, M., Gopinath, S. C. B., & Hashim, U. (2023). Recent advances in density functional theory approach for optoelectronics properties of graphene. Heliyon, 9(3), e14279.

Sholagberu, A. A., Yahya, W. A., & Adewale, A. A. (2022). Pressure effects on the opto-electronic and mechanical properties of the double perovskite Cs₂AgInCl₆. Physica Scripta, 97(8), 085824.

Adewale, A. A., Chik, A., Zaki, R. M., Che Pa, F., Keat, Y. C., & Jamil, N. H. (2018). Thermoelectric transport properties of SrTiO₃ doped with Pm. Solid State Phenomena, 280, 3–8.

Yahya, W., Yahaya, A. A., Adewale, A. A., Sholagberu, A. A., & Olasunkanmi, N. K. (2023). A DFT study of optoelectronic, elastic and thermo-electric properties of the double perovskites Rb₂SeX₆ (X=Br, Cl). Journal of the Nigerian Society of Physical Sciences, 1418–1418.

Mr. Enrico Bargagna | Best Researcher Award

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Mr. Enrico Bargagna | Best Researcher Award

University of Pisa | Italy

Dr. Enrico Bargagna is a Post-graduate Research Fellow at the Department of Civil and Industrial Engineering, University of Pisa, Italy, following completion of his M.Sc. (2022-2025) and B.Sc. (2018-2022) in Mechanical Engineering at the same institution. He is currently enrolled in a Ph.D. programme in Mechanical Engineering (2025-2028) within the same department. His research interests centre on the design and optimization of hybrid quantum electro-optical transducers capable of bidirectional microwave-to-optical conversion at millikelvin temperatures, integrating superconducting radio-frequency cavities with electro-optic optical resonators to realise enhanced coupling, improved heat dissipation and mechanical robustness an investigation recently presented in the journal Sensors. His scholarly output includes this peer-reviewed article, and his citation metrics reflect an h-index of 12. He has contributed to a growing corpus of documents (including journal articles, conference proceedings and technical reports) and achieved several citations across his work. His work has been recognised with internal academic awards (e.g., the Best Scholar Award) underscoring his emerging stature in quantum‐engineering interfaces and cryogenic mechanical systems. In conclusion, Dr. Bargagna is developing as a promising early-career researcher advancing hybrid quantum systems through an engineering-mechanics lens and is poised to make impactful contributions to quantum transducer architectures and cryogenic device design.

Profile : Orcid

Featured Publications

Bargagna, E., Delgado, J., Wang, C., Gonin, I., Yakovlev, V. P., Neri, P., Passarelli, D., & Zorzetti, S. (2025). Design and optimization of a hybrid design for quantum transduction. Sensors, 25(20), 6365.

Assist. Prof. Dr. Ying Tang | Best Researcher Award

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Assist. Prof. Dr. Ying Tang | Best Researcher Award

Shenzhen Technology University | China

Dr. Ying Tang is an Assistant Professor at Shenzhen Technology University in the College of Integrated Circuits and Optoelectronic Chips, appointed in March 2024. She earned her Ph.D. in Opto-electronics Information Science and Engineering from South China University of Technology in 2022 and conducted research at the National Laboratory of Solid State Microstructures and the Collaborative Innovation Center of Advanced Microstructures. Her research expertise spans semiconductor optics, single-particle spectroscopy, ultrafast spectroscopy, exciton dynamics, and quantum photonics, with particular focus on perovskite and CdSe/CdS nanocrystals. Dr. Tang has authored 10 high-impact publications with over 526 citations and an h-index of 9, addressing topics such as exciton fine structures, multiexciton emission, electric-field modulation, and low-threshold lasing in nanostructures. Her contributions advance the understanding and control of optical properties in nanoscale materials, bridging fundamental physics with practical optoelectronic applications. She is recognized for pioneering studies in quantum photonics and high-performance nanomaterials, establishing herself as an emerging leader in the field.

Profiles : Research Gate | Orcid

Featured Publications

Tang, Y., Qin, Q., Yang, H., Feng, S., Zhang, C., Zhang, J., Xiao, M., & Wang, X. (2022). Electrical control of biexciton Auger recombination in single CdSe/CdS nanocrystals. Nanoscale.

Zhang, L., Yang, H., Tang, Y., Xiang, W., Wang, C., Xu, T., Wang, X., Xiao, M., & Zhang, J. (2022). High-performance CdSe/CdS@ZnO quantum dots enabled by ZnO sol as surface ligands: A novel strategy for improved optical properties and stability. Chemical Engineering Journal.

Tang, Y., Yin, C., Jing, Q., Zhang, C., Yu, Z.-G., Lu, Z., Xiao, M., & Wang, X. (2022). Quantized exciton motion and fine energy-level structure of a single perovskite nanowire. Nano Letters.

Hu, J., Bi, C., Zhang, X., Lu, Y., Zhou, W., Zheng, Z., Tang, Y., Lu, F., Yao, Z., & Tian, B. (2022). Yellow-light emitted single halide CsPbI3 nanowire. Applied Materials Today.

Yang, H., Zhang, L., Tang, Y., Xiang, W., Wang, X., Xiao, M., Cui, Y., & Zhang, J. (2021). Enhanced multiexciton emission property in gradient alloy core/shell CdZnSeS/ZnS quantum dots: Balance between surface passivation and strain-induced lattice defect. The Journal of Physical Chemistry C.

Dr. Shyamal Mondal | Best Research Article Award

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Dr. Shyamal Mondal | Best Research Article Award

Defence Institute of Advanced Technology | India

Shyamal Mondal is a leading researcher with an h-index of 9, 58 publications, and 293 citations across 235 documents, demonstrating significant contributions in photonics, terahertz technologies, and ultrafast optics. He earned his Ph.D. in Physics and Meteorology from the Indian Institute of Technology Kharagpur and is currently a faculty member at SRM Institute of Science and Technology, Kattankulathur, India. His research focuses on terahertz imaging and antenna design, deep learning for image enhancement, nonlinear optical phenomena, ultrafast fiber lasers, and advanced materials such as carbon nanostructures and MXenes. Dr. Mondal has advanced interdigitated photoconductive antennas, coherent mid-infrared laser sources, and modelocked fiber lasers, integrating theoretical and experimental approaches. He has published in high-impact journals including ACS Applied Optical Materials, Optics Express, and Journal of Applied Physics, and presented his work at international conferences. His contributions have strengthened the fields of terahertz communications, optical nonlinearity, and laser technologies. Dr. Mondal continues to drive innovation, mentoring emerging researchers, and bridging fundamental science with applied photonics solutions, thereby expanding the frontiers of optical and terahertz research.

Profiles : Google Scholar | Orcid | Scopus | Research Gate

Featured Publications

Mondal, S., Jampani, K., Raj, A. R., Roy Chowdhury, D., & Sethi, A. (2025). Implementing W-Net deep learning for terahertz image enhancement and segmentation. Engineering Research Express.

Mondal, S., Raj, A. R., & Saha, S. (2024). Advancements in the use of artificial saturable absorbers for modelocking of 2 µm ultrafast fiber lasers. Annalen der Physik.

Rathinasamy, V., Thipparaju, R. R., Boby, E. N. F., & Mondal, S. (2022). Interdigitated photoconductive antenna for future wireless communications. Microwave and Optical Technology Letters, 64(12), 2189–2196.

Boby, E. N. F., Prajapati, J., Rathinasamy, V., Mukherjee, S., & Mondal, S. (2022). Parametric investigation of interdigitated photoconductive antenna for efficient terahertz applications. Arabian Journal for Science and Engineering, 47(3), 3597–3609.

Mitra, N., Patra, A. K., Singh, S. P., Mondal, S., Datta, P. K., & Varshney, S. K. (2020). Interfacial delamination in glass-fiber/polymer-foam-core sandwich composites using singlemode–multimode–singlemode optical fiber sensors: Identification based on experimental investigation. Journal of Sandwich Structures and Materials.

Mondal, S., Mukherjee, S., Singh, S. P., Rand, S. C., Bhattacharya, S., Das, A. C., & Datta, P. K. (2016). Dynamic gain aperture modelocking in picosecond regime based on cascaded second-order nonlinearity. Optics Express, 24(15), 15274–15285.

Dr. Rongfeng Huang | Best Research Article Award

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Dr. Rongfeng Huang | Best Research Article Award

Fujian Agriculture and Forestry University | China

Dr. Rongfeng Huang is an Associate Professor at the Haixia Institute of Science and Technology, Fujian Agriculture and Forestry University, China. With 6 research publications, an h-index of 6, and 416 citations from 406 documents, he has established a strong academic presence in plant developmental biology and molecular signaling. He obtained his B.S. and M.S. degrees from Shandong Normal University, majoring in Biotechnology and Developmental Biology, respectively, and earned his Ph.D. in Cell Biology from the University of Chinese Academy of Sciences. Since 2018, Dr. Huang has been engaged in pioneering research on auxin signaling, plant hormone perception, lateral root formation, and plant stress physiology. His notable works published in Cell and PNAS have advanced understanding of non-canonical auxin signaling pathways and plant endocytosis mechanisms. Dr. Huang’s interdisciplinary approach combines cell biology, metabolomics, and molecular genetics to address key challenges in plant growth regulation and agricultural sustainability. His contributions continue to enhance the scientific understanding of plant signaling networks and promote innovations in crop resilience and productivity.

Profile :  Scopus 

Featured Publications

Huang, R., Zheng, R., He, J., Zhou, Z., Wang, J., Xiong, Y., & Xu, T. (2019). Non-canonical auxin signaling regulates cell division pattern during lateral root development. Proceedings of the National Academy of Sciences of the United States of America, 116(27), 14349–14357.

Wang, L., Cheng, M., Yang, Q., Li, J., Wang, X., Zhou, Q., Nagawa, S., Xu, T., Huang, R., He, J., Li, C., Fu, Y., Liu, Y., Bao, J., Wei, H., Li, H., Tan, L., Gu, Z., Xia, A., Huang, X., Yang, Z., & Deng, X. W. (2019). Arabinogalactan protein–rare earth element complexes activate plant endocytosis. Proceedings of the National Academy of Sciences of the United States of America, 116(28), 14349–14357.

Dou, M., Fan, S., Yang, S., Yu, H., Huang, R., & Feng, X. (2016). Overexpression of AmRosea1 gene confers drought and salt tolerance in rice. International Journal of Molecular Sciences, 18(1), 1–12.

Li, X., Ma, D., Lu, S., Hu, X., Huang, R., Liang, T., Xu, T., Tobin, E. M., & Liu, H. (2016). Blue light- and low temperature-regulated COR27 and COR28 play roles in the Arabidopsis circadian clock. The Plant Cell, 28(11), 2755–2769.

Liu, G., Shao, Q., Huang, R., & Feng, X. (2013). Characterization and expression analysis of DGAT gene family in soybean. Chinese Agricultural Science Bulletin, 29(12), 55–61.

Dr. Awani Bhushan | Best Researcher Award

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Dr. Awani Bhushan | Best Researcher Award

Velllore Institute of Technology, University (Chennai Campus) | India

Dr. Awani Bhushan is an Assistant Professor (Senior Grade) in the School of Mechanical Engineering at Vellore Institute of Technology, Chennai, with an h-index of 6, 33 documents, and 113 citations. He earned his Ph.D. in Machine Design from the Indian Institute of Technology (BHU), Varanasi, and holds prior degrees in machine and mechanical engineering. His research and teaching experience span nuclear engineering, solid mechanics, fracture mechanics, finite element analysis, and reliability assessment, combining analytical, experimental, and numerical approaches. He develops and validates computational models using ANSYS and COMSOL Multiphysics alongside custom FORTRAN and C++ implementations, and applies statistical Weibull-based methods for strength and size-effect characterization. His publications appear in Journal of Nuclear Materials, Journal of Testing and Evaluation, RSC Advances, and other peer-reviewed outlets. Key contributions include Weibull design criteria for nuclear graphite, fracture parameter correlation for unimodular and bimodular graphite, and studies on composites and functionally graded materials. He has secured research funding, filed patents, led collaborative proposals, and mentors students in interdisciplinary projects aimed at energy, defense, and structural-integrity applications. Overall, his work advances computational mechanics and material reliability with practical engineering impact and ongoing scholarly growth.

Profiles : Google ScholarScopus | Orcid

Featured Publications

Bhushan, A., & Panda, S. K. (2018). Experimental and computational correlation of fracture parameters KIc, JIc, and GIc for unimodular and bimodular graphite components. Journal of Nuclear Materials, 503, 205–225.

Kumar, H., Tengli, P. N., Mishra, V. K., Tripathi, P., Bhushan, A., & Mishra, P. K. (2017). The effect of reduced graphene oxide on the catalytic activity of Cu–Cr–O–TiO₂ to enhance the thermal decomposition rate of ammonium perchlorate: An efficient fuel oxidizer. RSC Advances, 7(58), 36594–36604.

Bhushan, A., Panda, S. K., Khan, D., Ojha, A., Chattopadhyay, K., & Kushwaha, H. S. (2016). Weibull effective volumes, surfaces, and strength scaling for cylindrical flexure specimens having bi-modularity. Journal of Testing and Evaluation, 44(5), 1978–1997.

Ram, S. C., Chattopadhyay, K., & Bhushan, A. (2023). A literature review on Al–Si alloy matrix based in situ Al–Mg₂Si FG-composites: Synthesis, microstructure features, and mechanical characteristics. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science.

Suman, S., Yadav, A. M., Tomar, N., & Bhushan, A. (2020). Combustion characteristics and behaviour of agricultural biomass: A short review. Renewable Energy – Technologies and Applications.

Suman, S., Yadav, A. M., Bhushan, A., Bhaskara Rao, L., & Rajak, D. K. (2022). Substitution of coking coal with biochar for thermal and metallurgical utilisation. International Journal of Sustainable Energy, 41(11), 1778–1794.*

Assoc. Prof. Dr. Yueguang Gao | Best Researcher Award

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Assoc. Prof. Dr. Yueguang Gao | Best Researcher Award

North University of China | China
Dr. Yueguang Gao is an Associate Professor at the North University of China, specializing in impact dynamics, explosion mechanics, and material fragmentation. He earned his Ph.D. from the State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, and his Bachelor’s degree in Engineering Mechanics from the North University of China. His research focuses on the dynamic fracture of materials under explosive loading, simulation of structural responses under extreme conditions, and theoretical modeling of fragment behavior and velocity distribution. Dr. Gao has published 12 research papers in internationally reputed journals such as the International Journal of Impact Engineering, Defence Technology, and the International Journal of Mechanical Sciences. His scientific contributions have earned him 79 citations and an h-index of 5, reflecting the growing influence of his work in the field of explosion mechanics. He has been recognized with several distinctions, including the National Scholarship (2022) and the North University of China Excellence Scholarship. Through his innovative studies on fragment dynamics and material failure, Dr. Gao continues to contribute significantly to the advancement of defense technology and applied mechanics research.
Profiles : Scopus | Orcid

Featured Publications

Gao, Y., Fu, J., Wu, S., Lan, X., Ren, K., & Yang, R. (2025). Effects of end caps of cylindrical casing on fragment velocity distribution. Defence Technology.

Gao, Y., Fu, J., Wu, S., Feng, S., Zhao, T., Chen, Z., Li, Y., & Liu, H. (2024). A theoretical model for the oblique impact of fragments. International Journal of Impact Engineering, 184, 104837.

Gao, Y., Feng, S., Xiao, X., Feng, Y., & Huang, Q. (2023). Fragment characteristics from a cylindrical casing constrained at one end. International Journal of Mechanical Sciences, 248, 108186.

Gao, Y., Feng, S., Xiao, X., Zhang, B., & Huang, Q. (2023). Fragment characteristics of cylinder with discontinuous charge. International Journal of Impact Engineering, 173, 104479.

Gao, Y., Feng, S., Huang, G., Feng, Y., & Huang, Q. (2022). Experimental study of the oblique impact and ricochet characteristics of cylindrical fragments. International Journal of Impact Engineering, 170, 104334.

Mr. Weijiang Xu | Best Researcher Award

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Mr. Weijiang Xu | Best Researcher Award

Guilin University of Electronic Technology | China

Dr. Weijiang Xu is a Lecturer at the School of Optoelectronic Engineering, Guilin University of Electronic Technology. He earned his Doctor of Science (2024) and Master of Science (2018) in Physics from Harbin Institute of Technology, following his Bachelor’s degree from Lingnan Normal University in 2016. His research centers on optical fiber sensors, quantum dot photonics, and upconversion luminescence for multifunctional sensing applications. Dr. Xu has authored 17 scientific documents with over 120 citations and maintains an h-index of 8, reflecting his growing influence in the field of optical materials and photonic sensing. His representative works, published in leading journals such as Optics Express, Optics Letters, Journal of Lightwave Technology, and Optics Communications, explore innovative fiber-based devices for temperature, curvature, and flow sensing. He has also contributed to the development of several patented optical fiber sensing technologies in China. Dr. Xu’s recent advancements include bubble-tunable and calibration-free optical fiber sensors employing quantum dots-filled liquid cores. His research continues to bridge nanomaterials with optical engineering for advanced environmental and biomedical sensing. With a record of impactful publications and technological innovation, Dr. Xu is emerging as a promising scholar in the field of optoelectronic sensing.

Profile :  Scopus 

Featured Publications

Xu, W., Li, Y., Shang, J., Wang, Y., Hou, L., Liu, Y., & Qu, S. (2022). Optical fiber sensor based on upconversion luminescence for synchronous temperature and curvature sensing. Optics Express, 30(18), 33136–33136.

Xu, W., Qu, J., Liu, Y., Bai, J., Li, Y., & Qu, S. (2023). Optical fiber inclinometer with dynamically controllable excitation length of quantum dots liquid-core waveguide based on a photo-controlled bubble. Optics Letters, 48(6), 1403–1406.

Xu, W., Qu, J., Liu, Y., Bai, J., Li, Y., & Qu, S. (2023). A calibration-free fiber sensor based on CdZnSe/ZnSe/ZnS quantum dots for real-time monitoring of human thermal activities. Measurement, 206, 112315.

Xu, W., Liu, Y., Li, Y., & Qu, S. (2024). Horizontal clinometer based on a movable bubble in the arc-shaped quantum dots liquid cavity. Journal of Lightwave Technology, 42(6), 2193–2199.

Qu, J., Zhang, Y., Ling, M., & Xu, W.* (2025). Heat-typed fiber liquid flow sensor with wide sensing range and high sensitivity. Journal of Lightwave Technology, 43(1), 369–375.