Urosa Latief | Material science | Young Scientist Award

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Dr. Urosa Latief l Material science | Young Scientist Award

Indian Institute Of Technology Delhi| India

Dr. Urosa Latief’s research is centered on experimental condensed matter physics, with a strong emphasis on the synthesis, design, and functional optimization of advanced nanomaterials for sustainable energy and optoelectronic applications. Her work integrates nanotechnology with energy-efficient material development, focusing on environmentally friendly solid-state lighting (SSL) systems and flexible piezoelectric nanogenerators (PNGs) for energy harvesting. She has developed hybrid nanocomposites based on poly(vinylidene fluoride) integrated with functionalized multi-walled carbon nanotubes and barium titanate fillers to enhance piezoelectricity and output performance. In parallel, her studies on quantum dots and carbon-based nanostructures have led to significant advances in luminescent, multifunctional, and rare-earth-free phosphors for photonic and sensing applications. Through systematic material engineering, she has demonstrated the tunability of optical and electronic properties in ZnS and ZnO-based nanostructures, contributing to dual-mode sensors and high-efficiency light-emitting devices. Her research further explores nanocomposites for self-powered systems, integrating piezo-optical functionalities for next-generation wearable and flexible electronics. With several publications in reputed international journals and a strong interdisciplinary approach, her work contributes to the advancement of green energy technologies, nanophotonics, and smart material systems that bridge fundamental science with real-world applications.

Featured Publications

Latief, U., ul Islam, S., Khan, Z. M. S. H., & Khan, M. S. (2021). A facile green synthesis of functionalized carbon quantum dots as fluorescent probes for a highly selective and sensitive detection of Fe³⁺ ions. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 262, 120132. https://doi.org/10.1016/j.saa.2021.120132

Latief, U., Islam, S. U., Khan, Z., & Khan, M. S. (2022). Luminescent manganese/europium doped ZnS quantum dots: Tunable emission and their application as fluorescent sensor. Journal of Alloys and Compounds, 910, 164889. https://doi.org/10.1016/j.jallcom.2022.164889

Latief, U., Islam, S. U., & Khan, M. S. (2023). Rare-earth free solid-state fluorescent carbon-quantum dots: Multi-color emission and its application as optical dual-mode sensor. Journal of Alloys and Compounds, 941, 168985. https://doi.org/10.1016/j.jallcom.2023.168985

Islam, S. U., Latief, U., Ahmad, I., Khan, Z., Ali, J., & Khan, M. S. (2022). Novel NiO/ZnO/Fe₂O₃ white light-emitting phosphor: Facile synthesis, color-tunable photoluminescence and robust photocatalytic activity. Journal of Materials Science: Materials in Electronics, 33(29), 23137–23152. https://doi.org/10.1007/s10854-022-09079-8

Yujie Chen | Materials Science | Best Researcher Award

Published on by Young Scientists Awards

Prof. Dr.Yujie Chen | Materials Science | Best Researcher Award

Materials Science | Professor at  Shanghai Jiao Tong University, China

Prof. Dr. Yujie Chen, born in Hebei Province, China, is an Associate Professor at Shanghai Jiao Tong University (SJTU) specializing in polymeric materials and advanced functional composites. With a passion for innovative research in soft electronics, bio-medicine, and nanotechnology, his work explores materials that mimic biological systems. Prof. Chen’s academic career has led him to make significant contributions to the development of materials like hydrogels, artificial muscles, and piezoelectric composites. His research blends fundamental materials science with practical applications in cutting-edge technologies, and he continues to collaborate internationally to push the boundaries of material engineering. With a robust portfolio of publications, grants, and global recognition, Prof. Chen is widely regarded for his impactful work in his field.

Profile

Scopus

🎓 Education 

Prof. Yujie Chen holds a Ph.D. in Materials Science and Engineering from East China University of Science and Technology (ECUST), awarded in 2012. He also completed an exchange Ph.D. program in Polymer Engineering and Physics at the Berlin Institute of Technology (TU-Berlin), where he worked under Prof. Manfred H. Wagner. Prof. Chen’s undergraduate studies were also at ECUST, where he received a Bachelor’s in Materials Science and Engineering. His academic journey was further enriched by joint research at Lübeck University in Germany, which provided him with a global perspective on materials science. Prof. Chen’s education equipped him with extensive theoretical knowledge and practical experience, making him an expert in the development of advanced materials and composites for a variety of applications.

🏆 Experience 

Prof. Yujie Chen has built a distinguished career at Shanghai Jiao Tong University (SJTU), where he has progressed from Lecturer (2015-2020) to Associate Professor (2021-2024) and now a Professor since 2024. Prior to his academic positions, he worked as a postdoctoral researcher at TU-Berlin and ECUST, where he expanded his expertise in polymer engineering and materials science. Over the years, Prof. Chen has led cutting-edge research projects focusing on advanced functional materials, including self-healing polymers, composite materials, and bio-inspired systems. His leadership in academic research has led to numerous funded projects, awards, and the development of new technologies. Prof. Chen is also a dedicated educator and mentor, guiding students and researchers in exploring innovative materials for diverse applications.

🏅 Awards and Honors 

Prof. Yujie Chen’s outstanding research has earned him several prestigious awards. These include the 2023 National Youth Talent award, 1st Prize of Shanghai Science and Technology Progress Award (2022), and the Youth Outstanding Contribution Award of the China Nonferrous Metals Society (2022). He was named Morning Star Outstanding Young Scholar at SJTU in 2020 and received the Shanghai Sailing Scholar Award in 2016. Prof. Chen’s contributions to material science and technology have been recognized by numerous academic organizations and funding bodies, reflecting his leadership and innovation. His work continues to be supported by several high-profile research grants, underlining his influence in advancing materials science.

🔬 Research Focus 

Prof. Yujie Chen’s research focuses on the development of advanced polymeric materials and composites, particularly for applications in artificial muscles, soft electronics, bio-medicine, and nanotechnology. He specializes in designing functional hydrogels, piezoelectric composites, and self-healing materials that integrate biological and mechanical properties. His work aims to create materials that are responsive to environmental stimuli and capable of mimicking natural systems, advancing technologies such as wearable devices, energy harvesting systems, and artificial actuators. Prof. Chen is also interested in the intersection of material science and biotechnology, exploring how novel materials can be used in healthcare and environmental applications.

✅ Conclusion

Prof. Dr. Yujie Chen is an exemplary candidate for the Best Researcher Award due to his outstanding contributions to the field of materials science. His dedication to solving complex problems with novel materials and his ability to bridge academic research with real-world applications make him highly deserving of this recognition. His work continues to influence the development of next-generation technologies that will have lasting impacts on multiple industries, solidifying his place among the best researchers in his field.

Publication

Waxberry-liked micro-nanostructured, superhydrophobic surfaces with enhanced photothermal de-icing and passive anti-icing properties

Authors: S. Liu, Z. Zhu, Q. Zheng, H. Liu, H. Li

Citations: 0

Year: 2025

A multi-modal deformation sensing hydrogel with a nerve-inspired highly anisotropic structure

Authors: Q. Zhang, Y. Chen, S. Li, Y. Guo, H. Liu

Citations: 0

Year: 2024

O2-H2O2 high-efficient co-oxidation of carbohydrate biomass to formic acid via Co3O4/C nanocatalyst

Authors: Y. Chen, Y. Yang, X. Liu, F. Jin

Citations: 0

Year: 2024

Ag-S coordination strategy for high recovery driving stress in recyclable shape memory polymers

Authors: Z. Zhu, S. Liu, J. Yao, H. Liu, H. Li

Citations: 0

Year: 2024

Thermal responsive polyurethane/brominated isobutylene isoprene rubber co-continuous IPNs elastomer: From tunable shape memory behavior to high damping properties

Authors: Q. Yu, Q. Fan, W. Chen, Y. Wu, H. Liu

Citations: 1

Year: 2024

Tailorable effective microwave absorption bandwidth of chitosan-derived carbon-based aerogel under different compression

Authors: W. Chu, K. Wang, S. Liu, H. Li, H. Liu

Citations: 1

Year: 2024

Quercetin-Loaded Bioglass Injectable Hydrogel Promotes m6A Alteration of Per1 to Alleviate Oxidative Stress for Periodontal Bone Defects

Authors: H. Zhu, C. Cai, Y. Yu, Y. Chen, Y. Xu

Citations: 7

Year: 2024

Electronic Skin for Health Monitoring Systems: Properties, Functions, and Applications

Authors: X. Yang, W. Chen, Q. Fan, F. Lai, H. Liu

Citations: 26

Year: 2024

One-Step Cooperative Growth of High Reaction Kinetics Composite Homogeneous Core–Shell Heterostructure

Authors: H. Liu, Q. Chen, H. Chen, L. Shi, H. Li

Citations: 7

Year: 2024

A controllable foaming approach for the fabrication of “rattan-like” graphene-based composite aerogel with desirable microwave absorption capacity

Authors: X. Zhang, Q. Zheng, Y. Chen, X. Jiang, S.M. Zhu

Citations: 9

Year: 2024