Meihui Li | Information Entropy | Excellence in Research Award

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Dr. Meihui Li | Information Entropy | Excellence in Research Award

Yanshan University | China

Dr. Meihui Li is an interdisciplinary researcher whose work bridges music psychology, music therapy, neurorehabilitation, and human–machine interaction, with a strong emphasis on evidence-based intervention and experimental methods. With 7 published documents, 11 citations, and an h-index of 2, her research spans systematic reviews, psychophysiological experiments, and biomimetic design. She has contributed to high-impact journals including Biomimetics, Frontiers in Psychology, Frontiers in Neurology, and PLOS ONE (SCI/SSCI Q1–Q2), covering topics such as piano music therapy for stroke rehabilitation, prosocial music cognition using ERP, sleep-related music therapy, and psychometric assessment in music populations. Her work also advances wearable and robotic exoskeleton systems for piano practice through multi-domain mapping and top-down process models. Dr. Li is a registered PROSPERO systematic reviewer and completed a doctoral dissertation focused on deliberate-practice-based teaching models in music education, highlighting motivation and performance state optimization.

Citation Metrics (Scopus)

12

9

6

3

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11

h-index
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7

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Featured Publications

The Impact of Songs with Prosocial Lyrics on Implicit Cognition and Prosocial Behavior:
An Event-Related Brain Potentials Study
Frontiers in Psychology (SSCI Q1), 2025 | Second Author

Meta-Narrative Review: The Impact of Music Therapy on Sleep and Future Research Directions
Frontiers in Neurology (SCI Q2), 2024 | Co–First Author

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


View Scopus Profile

Featured Publications