Yang Song
About Yang Song
Yang Song is a Technical Associate Staff at Oak Ridge National Laboratory, where he has worked since 2017. He has authored over 40 publications and has received extensive media coverage for his research in advanced materials and physical chemistry.
Work at Oak Ridge National Laboratory
Yang Song has been employed at Oak Ridge National Laboratory since 2017, serving as Technical Associate Staff. In this role, he contributes to research and development in advanced materials. His work has garnered significant attention, resulting in over 400 national and international media mentions, including coverage by major outlets such as Yahoo, Popular Mechanics, Time, CBSNews, and Al Jazeera.
Education and Expertise
Yang Song holds a Bachelor of Science in Chemistry from Jilin University, where he studied from 2001 to 2005. He then pursued a Master of Science in Nanomaterials at Shandong University from 2005 to 2008. Yang completed his Doctor of Philosophy in Physical Chemistry at the University of California, Santa Cruz from 2009 to 2012. His academic background provides a strong foundation for his expertise in advanced materials and physical chemistry.
Background in Research
Prior to his current position, Yang Song worked as a Post-Doctoral Research Associate at Oak Ridge National Laboratory from 2014 to 2017. He also served as a Graduate Research Assistant at Shandong University from 2005 to 2008 and briefly as a Post Doctoral Researcher at UC Santa Cruz in 2014. This diverse research experience has equipped him with extensive knowledge in the field.
Publications and Patents
Yang Song has authored over 40 publications in the fields of physical chemistry and materials science. His research contributions have been recognized through numerous media mentions. Additionally, he has filed three pending patents related to nanomaterials, demonstrating his innovative work in this area.
Technical Skills and Analytical Techniques
Yang Song possesses hands-on experience with a variety of advanced materials, including graphene, metal oxides, and noble metal nanoparticles. He utilizes a wide range of analytical techniques in his research, such as SEM, HR-TEM, STEM, AFM, and XPS, among others. This expertise allows him to conduct comprehensive analyses and contribute to advancements in material science.