Ms. Jingmin Ge | Sensor Networks & Wireless Sensor Technologies | Innovative Research Award

Ms. Jingmin Ge | Sensor Networks & Wireless Sensor Technologies | Innovative Research Award

Sensors | Zhengzhou university | China

Dr. Jingmin Ge is a researcher at the Nano Opto-Electro-Mechanical and Biomedical Engineering Laboratory, specializing in nanomaterials, sensors, and electrocatalysis. She earned her Ph.D. in Chemistry from Beijing University of Chemical Technology, M.Sc. in Organic Chemistry from Central China Normal University, and B.Sc. in Applied Chemistry from Henan Agricultural University. Dr. Ge has led and contributed to several national and collaborative projects focused on high-performance electrocatalysts, toxic gas and soil sensors, and sustainable environmental monitoring systems. Her research integrates material synthesis, nanostructure design, and DFT simulations to uncover mechanisms in hydrogen evolution, CO₂ reduction, and pollutant detection. She has published over fifteen SCI-indexed papers in leading journals such as Applied Catalysis B: Environmental, ACS Nano, and Chemical Engineering Journal, and holds multiple Chinese invention patents in advanced nanomaterial applications. Recognized for her scientific excellence, Dr. Ge has served as a key contributor in state-level laboratories, advancing green energy and smart sensing technologies. Her professional portfolio demonstrates a sustained commitment to interdisciplinary innovation, bridging theoretical computation and experimental materials science, and positioning her as a distinguished researcher in chemical engineering and nanotechnology. According to Scopus, her research record includes 540 citations across 26 publications with an h-index of 12.

Profile: Scopus

Featured Publications

Ge, Jingmin*, Dual-metallic Single Ru and Ni Atoms Decoration of MoS₂ for High-efficiency Hydrogen Production. Appl. Catal. B-Environ., 2021, 298, 120557.

Ge, Jingmin*, Oxygen Atoms Substituting Sulfur Atoms of MoS₂ to Activate the Basal Plane and Induce Phase Transition for Boosting Hydrogen Evolution. Mater. Today Energy, 2021, 22, 100854.

Ge, Jingmin, Heterostructure Ni₃S₄–MoS₂ with Interfacial Electron Redistribution Used for Enhancing Hydrogen Evolution. RSC Adv., 2021, 11, 19630–19638.

Ge, Jingmin*, Activated MoS₂ by Constructing Single Atomic Cation Vacancies for Accelerated Hydrogen Evolution Reaction. ACS Appl. Mater. Interfaces, 2022, 14, 26846–26857.

Ge, Jingmin, NiFeCu Phosphides with Surface Reconstruction via Topotactic Transformation of Layered Double Hydroxides for Overall Water Splitting. Inorg. Chem. Front., 2023, 10, 3515–3524.

Assoc. Prof. Dr. Le Yang | Neuromorphic Engineering | Best Researcher Award

Assoc. Prof. Dr. Le Yang | Neuromorphic Engineering | Best Researcher Award

Teacher at Wuhan Institute of Technology, China

Dr. Le Yang is an accomplished associate professor whose research expertise spans memristor neuromorphic systems, embedded systems, and advanced circuit design. With over thirty academic papers, more than ten patents, and a record of guiding students to national and provincial competition success, Dr. Yang has established a reputation for impactful research and educational leadership. His contributions integrate innovation, mentorship, and practical application, making him a distinguished candidate for recognition in advanced research and technological development.

Professional Profile

Scopus Profile | ORCID

Education

Dr. Yang pursued a rigorous academic path that laid the foundation for his multidisciplinary expertise. Through formal training in electrical and electronic engineering, he developed deep technical skills that later expanded into neuromorphic computation and system design. His academic development included a blend of theory, experimentation, and application, ensuring that his expertise was not confined to traditional learning but extended toward innovation-driven research. This strong educational background has been critical in enabling his advancements in memristor-based systems, circuit architectures, and real-world applications in computational intelligence.

Experience

Over the course of his academic career, Dr. Yang has cultivated experience as both a researcher and educator. Serving as an associate professor, he has balanced teaching with impactful scholarly contributions. His guidance of students in highly competitive arenas such as the National Undergraduate Electronic Design Contest, Blue Bridge Cup IT Contest, and Embedded System Design Contest reflects his ability to mentor and inspire innovation. Under his leadership, students have achieved three National Second Prizes, two National Third Prizes, and numerous provincial awards, showcasing his ability to bridge theoretical knowledge with practical skill. Furthermore, his active participation in national experimental teaching case design competitions demonstrates his commitment to integrating cutting-edge methods into education, with his teams achieving national-level recognition.

Research Focus

Dr. Yang’s research primarily centers on the design and application of memristor-based neuromorphic systems. His work explores how memristors can emulate biological neural functions, advancing computational efficiency and functionality for artificial intelligence systems. He has contributed significantly to memristor crossbar circuit design, backpropagation neural networks, and associative memory models that replicate human-like learning behaviors. His investigations also include embedded system applications and advanced circuit design, which are crucial for both hardware innovation and neuromorphic computing development. With a focus on bridging theory with practice, his research enhances the potential of emerging technologies to address real-world challenges in artificial intelligence and intelligent system integration.

Awards & Honors

Dr. Yang’s academic excellence has been recognized through prestigious awards and competitive grants. In 2021, he was awarded the National Natural Science Foundation Youth Program Project, reflecting the national acknowledgment of his innovative contributions to memristor and neuromorphic system research. Additionally, his involvement in student mentoring has led to collective recognition, including multiple prizes at national contests and experimental teaching competitions. These honors highlight both his personal research excellence and his dedication to fostering the next generation of engineers and researchers. His recognition at multiple levels demonstrates a career built on both groundbreaking research and impactful educational mentorship.

Publication Top Notes

Title: Memristor-based circuit design of biological behavior chain
Author: Yang L, Cai R, Cheng M, Ding Z, Li S, Zeng Z
Journal: IEEE Transactions on Circuits and Systems I: Regular Papers

Title: Memristor-based circuit design of BiLSTM network
Author: Yang L, Lei J, Cheng M, Ding Z, Li S, Zeng Z
Journal: Neural Networks

Title: Memristive crossbar-based circuit design of back-propagation neural network with synchronous memristance adjustment
Author: Yang L, Ding Z, Xu Y, Zeng Z
Journal: Complex & Intelligent Systems

Title: Circuit design of in-situ training memristive backpropagation neural network
Author: Yang L, Cheng M, Su T
Journal: AEU - International Journal of Electronics and Communications

Title: Memristor-based neural network circuit of full-function Pavlov associative memory with unconditioned response mechanisms
Author: Ding Z, Chen Z, Li S, Li Z, Yang L (corresponding author)
Journal: IEEE Transactions on Circuits and Systems I: Regular Papers

Title: A generalization and differentiation circuit implementation based on neural mechanisms
Author: Ding Z, Chen Z, Li S, Su T, Yang L (corresponding author)
Journal: IEEE Transactions on Nanotechnology

Title: Memristor crossbar-based Pavlov associative memory network for dynamic information correlation
Author: Yang L, Ding Z, Zeng Z
Journal: AEU - International Journal of Electronics and Communications

Title: An improved memristive current mirror circuit for continuous adjustable current output
Author: Cheng M, Yang L (corresponding author), Ding Z, Li S, Lei J
Journal: AEU - International Journal of Electronics and Communications

Title: Memristor-based circuit design of continuous adjustable direct-current voltage source
Author: Ding Z, Su T, Li S, Yang L (corresponding author)
Journal: International Journal of Circuit Theory and Applications

Title: An associative-memory-based reconfigurable memristive neuromorphic system with synchronous weight training
Author: Yang L, Zeng Z, Huang Y
Journal: IEEE Transactions on Cognitive and Developmental Systems

Conclusion

Dr. Le Yang’s distinguished academic journey reflects a combination of research innovation, educational leadership, and technological advancement. His work in memristor neuromorphic systems contributes to shaping the future of artificial intelligence hardware and computational intelligence. By successfully securing national-level funding, producing high-impact publications, authoring patents, and mentoring students to achieve excellence, he demonstrates a multifaceted commitment to advancing science and education. His contributions make him a strong candidate for recognition in research excellence, embodying the qualities of innovation, dedication, and global impact