New Consideration of Degradation Accelerating of All‐Solid‐State
This study sheds light on the urgency of resolving the depletion of lithium ingredients during cycling rather than surface modification, by investigating the factors that
Yoon Seok JUNG | Professor (Full) | PhD | Yonsei University, Seoul
In article number 2001563 Yoon Seok Jung, Yong Min Lee and co‐workers build a highly sophisticated digital twin‐driven all‐solid‐state battery with a solid sulfide electrolyte.
Multifunctional Interface for High-Rate and Long
Lithium dendrite growth in solid electrolytes is one of the major obstacles to the commercialization of solid-state batteries based on garnet-type solid electrolytes. Herein, we propose a strategy that can simultaneously
Hyeon JEONG | Korea Institute of Science and Technology, Seoul
3D Fiber Electrodes In article number 2113057, Hyeon Su Jeong, Nam Dong Kim, and co‐workers present a 3D‐architectured fiber‐shaped energy storage device in which the structure is
Hyeon-Jin MOON | Ph.D | Seoul National University,
Remote microgrids with battery energy storage systems (BESSs), diesel generators, and renewable energy sources (RESs) have recently received significant attention because of their improved...
Hyeonwoo PARK | Bachelor of material science and engineering | Seoul
To date, the high energy storage performances observed in the field-induced ferroelectric HfO2- or ZrO2-based films have had an obstacle to scale-up due to the involvement of low-k
New Consideration of Degradation Accelerating of
Hyeon-Ji Shin. Energy Storage Research Center, Clean Energy Research Division, Korea Institute of Science and Technology, Seoul, 02792 Republic of Korea. Division of Energy and Environment Technology,
Hyeon-Ji SHIN | Korea Institute of Science and Technology, Seoul
Hyeon-Ji SHIN | Cited by 548 | of Korea Institute of Science and Technology, Seoul (KIST) | Read 14 publications | Contact Hyeon-Ji SHIN. Home; high-density energy storage devices. The
T. Hyeon''s research works | Seoul National University, Seoul
T. Hyeon''s 26 research works with 3,462 citations and 6,241 reads, including: Core–Shell Palladium Nanocatalysts for the Oxidation of Alcohols T. Hyeon''s research while affiliated with
Seong-Hyeon HONG | Seoul National University, Seoul
As post-Li-ion batteries (LIBs), rechargeable Na-ion batteries (NIBs) are considered as one of the potential candidates for large-scale energy storage systems because of the abundance and low...