Young Talent Lifting Project of China Association for Science and Technology at Shandong University, China.
Professor Dongxin He is a distinguished researcher in electrical insulation materials, dielectrics, and sustainable energy systems. His pioneering work on space charge behavior and insulation degradation has led to significant advancements in power grid reliability. As a Qilu Scholar, he has spearheaded multiple international research projects, developing eco-friendly, high-performance dielectric materials that enhance energy efficiency and safety. His research directly impacts high-voltage equipment, improving durability and sustainability. With numerous high-impact publications and industry collaborations, Professor He continues to shape the future of electrical insulation technology and sustainable power systems.
Professional Profile:
Scopus Profile
Suitability for Best Innovation Award: Professor Dongxin He
Professor Dongxin He is an outstanding candidate for the Best Innovation Award due to his groundbreaking research in electrical insulation materials, dielectrics, and sustainable energy systems. His pioneering contributions to space charge behavior and insulation degradation have significantly enhanced the reliability, safety, and efficiency of power grids. As a Qilu Scholar, he has led multiple international projects, developing eco-friendly, high-performance dielectric materials that improve energy sustainability. His work not only advances academic research but also has direct industrial applications, influencing high-voltage equipment durability and energy efficiency.
Education & Experience ๐
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Ph.D. in Electrical Engineering โ Focus on dielectric materials and high-voltage insulation
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Professor & Researcher โ Leading expert in power infrastructure materials
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Project Leader โ Directed multiple national and international research projects
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Industry Collaborator โ Worked with global energy firms on insulation solutions
Professional Development (100 words) ๐
Professor Dongxin He actively engages in cutting-edge research and industry collaborations, focusing on the development of advanced dielectric materials for sustainable energy. He has participated in numerous international conferences, sharing insights on space charge characteristics and insulation degradation. As a mentor and academic leader, he has guided emerging researchers in the field of high-voltage insulation. His involvement in global energy initiatives has helped bridge the gap between research and real-world applications. Through continuous innovation, Professor He contributes to energy-efficient, high-performance insulation solutions, ensuring the long-term sustainability of power systems worldwide.
Research Focus (100 words) ๐ฌ
Professor Dongxin He specializes in electrical insulation materials, dielectrics, and sustainable energy systems. His research explores space charge dynamics, dielectric property enhancement, and insulation degradation under extreme electrical stresses. He has developed eco-friendly and high-performance insulation materials that significantly improve the reliability and efficiency of power grids. His work also focuses on mitigating energy losses and increasing the longevity of high-voltage equipment. By integrating advanced material science with energy sustainability, Professor Heโs research provides groundbreaking solutions that enhance the safety, efficiency, and durability of modern power infrastructure.
Awards & Honors ๐
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Qilu Scholar โ Recognized for contributions to global energy research
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Best Innovation Award (Nominee) โ For pioneering advancements in insulation materials
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High-Impact Researcher โ Published extensively in top electrical engineering journals
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Industry Recognition โ Acknowledged for contributions to high-voltage equipment sustainability
Publication Top Notes
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Facile construction of copper nanoparticles decorated 3D calcium titanate toward tunable high dielectric and energy storage epoxy composites
- Authors: Yang Yongzhi, Liu Xiaoqian, Li Yuchao, He Dongxin, Shi Zhicheng
- Year: 2025
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Study on the Mechanism of Insulation Degradation Induced by Space Charge Accumulation Under DC High Field Intensity
- Authors: Cheng Lin, Zuo Kun, He Jihou, He Dongxin
- Year: [No source information available]
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Mechanism Analysis of Bubble Discharge Within Silicone Gels Under Pulsed Electric Field (Open Access)
- Authors: He Dongxin, Zhang Zhe, Wang Guangzhu, Teyssรจdre Gilbert, Zhang Yuantao
- Year: 2024
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Degradation Induced by Charge Relaxation in Silicone Gels Under the Ultra-Fast Pulsed Electric Field (Open Access)
- Authors: Gao Teng, He Dongxin, Xu Zhe, Liu Zhizhen, Cui Bin
- Year: 2024
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Synergistic Impact of Molecular Vibration and Charge Behavior on Enhanced Insulation Failure in Silicone Gel Under Ultra-Fast Pulsed Electric Field
- Authors: Gao Teng, He Dongxin, Liu Zhizhen, Xu Zhe, Wei Junyu
- Year: 2024
- Citations: 1