Nusrat Shaheen | Energy Storage Devices | International Data Breakthrough Achievement Award

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Assoc. Prof. Dr. Nusrat Shaheen | Energy Storage Devices | International Data Breakthrough Achievement Award

Qilu Institute of Technology | China

Assoc. Prof. Dr. Nusrat Shaheen is a physicist specializing in condensed matter physics, thermoelectric materials, and energy storage technologies. She earned her PhD in Condensed Matter Physics from Chongqing University, China (2017), following an MSc in Physics from Quaid-i-Azam University, Islamabad, and a BSc in Physics from Bahauddin Zakariya University, Pakistan. She completed two post-doctoral fellowships in China at Xi’an Jiaotong University (2019–2021) and Guangxi University (2021–2023), working on advanced thermoelectric and energy materials. Her academic experience includes serving as Assistant Professor at COMSATS University Islamabad and Lecturer of Physics at a government college in Pakistan. Her research focuses on thermoelectric materials (skutterudites and half-Heuslers), supercapacitors, batteries, fuel cells, and nanomaterial synthesis using hydrothermal, CVD, and solid-state methods. She has extensive expertise in structural, thermal, electrical, and electrochemical characterization. Dr. Shaheen is a recipient of the CSC Scholarship and the International Outstanding Student Award. Her scholarly impact includes 45 documents, an h-index of 17, and approximately 1,346 citations across 1,243 citing documents, reflecting sustained contributions to energy and materials research.

Citation Metrics (Scopus)

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Featured Publications

An ultra-high energy density flexible asymmetric supercapacitor based on hierarchical fabric decorated with 2D bimetallic oxide nanosheets and MOF-derived porous carbon polyhedra

– Journal of Materials Chemistry A, 2019 | Citations: 284
Binary WO₃–ZnO nanostructures supported rGO ternary nanocomposite for visible light driven photocatalytic degradation of methylene blue

– Synthetic Metals, 2020 | Citations: 186
Ag-doped FeCo₂O₄ nanoparticles and their composite with flat 2D reduced graphene oxide sheets for photocatalytic degradation of colored and colorless compounds

– FlatChem, 2022 | Citations: 99
The energy crisis in Pakistan: A possible solution via biomass-based waste

– Journal of Renewable and Sustainable Energy, 2016 | Citations: 99
An efficient genetic algorithm based demand side management scheme for smart grid

– International Conference on Network-Based Information Systems, 2015 | Citations: 98

Zhehong Liu | Data collection | Research Excellence Award

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Dr. Zhehong Liu | Data collection | Research Excellence Award

Institute of physics | China

Dr. Zhehong Liu is a materials scientist specializing in functional transition-metal oxides, with particular expertise in A-site ordered quadruple perovskites synthesized under high pressure and high temperature. He received his Ph.D. in Materials Science from the Institute of Physics, Chinese Academy of Sciences, where his doctoral research focused on high-pressure synthesis and physical property tuning of highly ordered quadruple perovskites. He is currently a Postdoctoral Research Associate at the same institute, conducting independent research on structure–property relationships in complex oxides. His work integrates advanced experimental techniques including synchrotron and neutron diffraction, x-ray absorption and dichroism, magnetic and electrical transport measurements to elucidate the roles of crystal structure, spin state, and valence state in emergent phenomena. Dr. Liu has extensive hands-on experience in high-pressure synthesis, cryogenic systems, and in-situ measurements, and has contributed to discoveries such as high-Curie-temperature half metals, novel magnetic orderings, and correlated and topological states in oxides. He has received multiple competitive honors, including top-tier postdoctoral and graduate awards from the Chinese Academy of Sciences. Overall, his research advances the understanding and design of strongly correlated and multifunctional materials with both fundamental and technological significance. His scholarly impact includes 1,398 citations, 53 documents, and an h-index of 17 (citations drawn from 1,182 documents).

Citation Metrics (Scopus)

1400
1000
600
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Citations
1,398

Documents
53

h-index
17

Citations

Documents

h-index


View Scopus Profile

Featured Publications

Sequential spin state transition and intermetallic charge transfer in PbCoO3

J. Am. Chem. Soc. 142, 5731 (2020). Cover Article
Realization of a half metal with a record-high Curie temperature in perovskite oxides

Adv. Mater. 2200626 (2022). Inside Back Cover

Quadruple perovskite oxide LaCu3Co2Re2O12:
A ferrimagnetic half metal with nearly 100% B-site degree of order


Appl. Phys. Lett. 117, 152402 (2020). Editor’s Pick

Observation of A-site antiferromagnetic and B-site ferrimagnetic orderings in the
quadruple perovskite oxide CaCu3Co2Re2O12


Phys. Rev. B 103, 014414 (2021)
Tunable Room-Temperature Ferromagnetism in Two-Dimensional Cr2Te3

Nano Lett. 20, 3130 (2020)

Ion Tirca | Physicist | Distinguished Scientist Award

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Dr. Ion Tirca | Physicist | Distinguished Scientist Award

University of Craiova | Romania

Dr. Ion Tirca is a physicist and materials science researcher specializing in photonic processing, thin films, and laser–matter interaction. His academic formation includes a bachelor’s degree in mathematics, a master’s degree in physics, a PhD in sciences, and a postdoctoral research program at the University of Craiova, where he also contributed as a project manager in an entrepreneurial education initiative. He has held research positions at the National Institute for Lasers, Plasma and Radiation Physics and at INCESA, focusing on advanced materials, pulsed laser deposition, and optical properties of functional surfaces. Dr. Tirca has authored 7 scientific documents, accumulated 43 citations from 38 citing documents, and holds an h-index of 4, reflecting the visibility and impact of his contributions. His publications in ISI-rated journals address topics such as Mg–Al layered double hydroxide thin films, WO₃ optical behavior, dopant effects, and biocompatible composite coatings. His research interests include laser deposition technologies, optical materials, nanostructures, biomaterials, and condensed matter physics. He has also participated in academic dissemination activities and contributed to interdisciplinary collaborations. Committed to advancing both scientific knowledge and applied research, Dr. Tirca continues to explore innovative photonic techniques for developing next-generation functional materials.

Profile : Scopus

Featured Publications

Tirca, I., Mitran, V., Marascu, V., Brajnicov, S., Ion, V., Stokker-Cheregi, F., Popovici, I. A., Cimpean, A., Dinca, V., & Dinescu, M. (2017). In vitro testing of curcumin-based composite coatings as antitumoral systems against osteosarcoma cells. Applied Surface Science, 425, 1040–1051.

Vlad, A., Birjega, R., Tirca, I., Matei, A., Mardare, C. C., Hassel, A. W., Nedelcea, A., Dinescu, M., & Zavoianu, R. (2018). Pulsed laser deposition of functionalized Mg–Al layered double hydroxide thin films. Applied Physics A, 124, 152.

Tirca, I., Boerasu, I., Radu, M.-S., & Osiac, M. (2021). Refractive index of WO₃ thin films grown under various temperatures determined by the Swanepoel method. Physica B: Condensed Matter, 620, 413266.

Osiac, M., Boerasu, I., Radu, M.-S., Jigau, M., & Tirca, I. (2021). Influence of iron as a dopant on the refractive index of WO₃. Materials, 14(19), 5845.

Osiac, M., Satulu, V., Jigau, M., Tirca, I., & Tudorascu, I. R. (2023). Influence of substrate temperature on the structural and chemical properties of iron-doped WO₃ films prepared by PLD. Applied Physics A, 129, 544.