基本信息
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职业迁徙
个人简介
I am a specialist in advanced materials for energy applications with extensive international experience in South Korea, Germany, Denmark, and Iran. My background in mechanical engineering and materials science has allowed me to expand my knowledge in Materials for Energy, Surface and Solid Mechanics, and Materials by Design. I have achieved several breakthroughs such as creating a mechanical properties library of novel 2D structure materials, pioneering the concept of Porous W-Cu additive manufactured structures for plasma-facing components in fusion devices, enhancing the heat flux tolerance of tungsten divertors in magnetic fusion machines by controlling recrystallization, and developing the terminology of "Hierarchical surface protection" in multi-nanolayer thin film development. I also specialize in micro/macro-scale elevated and ambient temperature tribology and corrosion having demonstrated proficiency in fabrication, characterization, and irradiation resistance of functional multi-layer coatings with self-healing properties. Additionally, I have pioneered the effect of multi-interfaces in reducing He ion retention and designed a novel Al-based composite with complex metallic alloy reinforcement using powder metallurgy technique for high temperature low wear applications.
Overall, I offer an in-depth understanding of exploiting advanced materials for energy applications and bring a multidisciplinary approach that integrates Surface and Solid Mechanics, Materials Science, and electrochemistry to my work.
Some of my core skills include thin film fabrication methods, FE-SEM/FIB, Raman, XPS, XRD, AFM, Ultra-Nanohardness, and LAXRD simulation, EBSD specialization, additive manufacturing, nanostructure design/fabrication using a bottom-up approach, tribology, nano-indentation, nano-scratch, and indentation creep, statistical data analysis, knowledge in electrochemistry and corrosion science, with experience studying degradation mechanisms of metallic materials in different environments, root cause analysis, and experience using molecular dynamic numerical methods such as LAMMPS.
研究兴趣
论文共 9 篇作者统计合作学者相似作者
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期刊级别
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ACS applied materials & interfacesno. 14 (2024): 18090-18098
Tribology international (2023): 108137-108137
Nuclear Materials and Energy (2023): 101465-101465
MATERIALS TRANSACTIONSno. 7 (2012): 1310-1317
作者统计
#Papers: 9
#Citation: 54
H-Index: 3
G-Index: 5
Sociability: 3
Diversity: 2
Activity: 4
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