Wenshan Li | Advanced Carbon Nanotube Array Electronics | Research Excellence Award

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Assoc. Prof. Dr. Wenshan Li | Advanced Carbon Nanotube Array Electronics | Research Excellence Award

Shanghai Jiao Tong University | China

Assoc. Prof. Dr. Wenshan Li is an established researcher in nanomaterials and carbon nanotube science, with a focused scholarly portfolio of 11 research documents that have attracted 505 citations from 453 citing publications, resulting in an h-index of 7. His research contributions center on the synthesis, separation, characterization, and controlled assembly of single-walled carbon nanotubes, with particular emphasis on dielectrophoresis-based techniques, chirality control, and length-resolved analysis. His work has advanced fundamental understanding and practical methodologies for monolayer nanotube array assembly, high-purity semiconducting nanotube preparation, and nanoscale device integration. Dr. Li’s publications in leading journals such as Carbon, Nano Research, ACS Nano, Nanoscale, Langmuir, and Nanotechnology demonstrate sustained impact in nanotechnology, materials chemistry, and nanoelectronics. Collectively, his research supports high-performance applications in field-effect transistors, biosensors, and next-generation nanoelectronic systems through rigorous experimental design and analytical precision.

 

Citation Metrics (Scopus)

600

400

0

Citations
505

Documents
11

h-index
7


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Chengxun Yuan | Space and Astrophysics | Outstanding Scientist Award

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Prof. Chengxun Yuan | Space and Astrophysics | Outstanding Scientist Award

Harbin Institute of Technology | China

Prof. Chengxun Yuan is a highly productive researcher in plasma physics, discharge physics, and electromagnetic wave–plasma interactions, with broad contributions spanning theoretical modeling, numerical simulation, and experimental analysis. His scholarly output comprises 235 research documents, which have received 1,597 citations from 1,016 citing publications, resulting in an h-index of 19, reflecting sustained academic impact and international recognition. His research addresses glow discharges, dusty plasmas, ionospheric physics, plasma–chemical processes, and photonic and electromagnetic phenomena, with applications ranging from atmospheric microdischarges to space and plasma optics. He has authored and co-authored influential books on glow discharge kinetics, dusty plasma physics, and electromagnetic wave–plasma interaction, which serve as key references in the field. His recent publications in leading journals such as Physical Review B, IEEE Transactions on Plasma Science, Optics Letters, and Physics of Plasmas demonstrate continued leadership in advancing plasma theory, modeling methodologies, and interdisciplinary plasma-based technologies.

 

Citation Metrics (Scopus)

1,600
1,200
300
0

Citations
1,597

Documents
235

h-index
19

Citations
Documents
h-index


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Monika Gębara | Modelling of Hysteresis Loops | Women Researcher Award

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Ms. Monika Gębara | Modelling of Hysteresis Loops | Women Researcher Award

Czestochowa University of Technology | Poland

Ms. Monika Gębara is an emerging researcher in applied physics whose work centers on magnetism, nonlinear dynamics, and complex behavior in electrical and physical systems. She has authored 6 research documents, accumulating 12 citations across 9 citing publications, with an h-index of 2, reflecting growing scholarly influence. Her research explores DC-bias effects on magnetization modeling, voltage- and frequency-dependent dynamics in RLD circuits, and chaotic and fractal phenomena in physical systems. She has also contributed to studies on critical behavior near the Curie temperature in magnetic alloys and the visualization of Lorentz forces using fractal structures. Her publications appear in reputable physics journals such as Physica B: Condensed Matter and Acta Physica Polonica A, highlighting her contributions to experimental and theoretical understanding of magnetic materials, nonlinear circuits, and complexity-driven phenomena in condensed matter and applied physics.

Citation Metrics (Scopus)

15

10

5

0

Citations
12

Documents
6

h-index
2

Citations

Documents

h-index


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