Name: Yongli Song
Title: None
E-mail: Songyl@ujs.edu.cn

Working Experience
Dec 2022 - Present      Jiangsu University, None
Oct 2019 - Oct 2022     Peking University, Assistant professor
Oct 2017 - Sep 2019     Peking University, Post-doctor

Education Background
● Doctor of Science (Sep.2013 – Jun. 2017)
-Major: Physics
● Master of Science (Sep.2011 - Jun.2013)
-Major: Condensed Matter Physics
● Bachelor of Science (Sep.2006 - Jun.2010)
-Major: Optical Information Science and Technology

Research Interests
● Lithium Ion Battery
● Solid Electrolyte
● Energy storage ceramics
● Lithium Salt Extraction

Research Techniques and Skills
● Synthesis technology：Solid-state reaction、Sol-gel method、PLD、Magnetic sputter
● Test technology：XPS、SEM、TEM、XRD、Raman、Impedance spectrum
● Assembly and testing technology of battery

Projects
● National Natural Science Foundation of China
● China Postdoctoral Science Foundation

Publications
● Insights Into the Interfacial Degradation of High-Voltage All-Solid-State Lithium Batteries, Nano-Micro Lett. (2022) 14:191 (SCI)
● Synergistic Dissociation-and-Trapping Effect to Promote Li-Ion Conduction in Polymer Electrolytes via Oxygen Vacancies, Small (2021), 17, 2102039 (SCI)
● Stable Interface between Lithium and Electrolyte Facilitated by a Nanocomposite Protective Layer, Small Methods (2020), 4, 1900751 (SCI)
● Probing into the origin of an electronic conductivity surge in a garnet solid-state electrolyte,  J. Mater. Chem. A, (2019),7, 22898-22902 (SCI)
● Revealing the Short-Circuiting Mechanism of Garnet-Based Solid-State Electrolyte, Adv. Energy Mater. (2019) 9, 1900671 (SCI)
● Effect of Ga-doping and oxygen vacancies on the ferromagnetism of TiO2 thin films, Journal of Alloys and Compounds (2017) 694, 927-934 (SCI)
● Colossal dielectric permittivity in (Al plus Nb) co-doped rutile SnO2 ceramics with low loss at room temperature Appl. Phys. Lett. (2016) 109, 142903 (SCI)
● The contribution of doped-Al to the colossal permittivity properties of AlxNb0.03Ti0.97-xO2 rutile ceramics,  J. Mater. Chem. C, (2016) 4, 6798-6805 (SCI)
● Origin of colossal dielectric permittivity of rutile Ti0.9In0.05Nb0.05O2: single crystal and polycrystalline, Sci. Rep. (2016) 6, 21478 (SCI)