Shedding Light on Batteries
Li-ion Batteries Turn to Water Splitting Catalysts
Non-Fluorinated Solvent Enabling Li-metal Batteries
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Jian and team's work on a kinetic indicator of ultrafast Ni-rich layered oxide is now published in ACS energy letters.
Bonho and team's work on surface dynamics of LFP is now published in Energy and Environmental Sciences.
Karl's review paper on the single atom catalyst and CO2 Reduction is now published in Carbon Energy.
Non-fluorinated non-solvating cosolvent enabling superior performance of lithium metal negative electrode battery
Junyeob Moon, Dong Ok Kim. et al.
Nature Communications, 2022, 13, 4538
Solid-state reaction heterogeneity during calcination of lithium-ion battery cathode
Sugeun Jo et al.
Advanced Materials, 2023, 2207076 .
Suppressed phonon conduction by geometrically induced evolution of transport characteristics from Brownian motion into Lévy flight
Youngjoon Kim et al.
NPG Asia Materials, 2022, 14, 33.
Redirecting Dynamic Surface Restructuring of a Layered Transition Metal Oxide Catalyst for Superior Water Oxidation
Jian Wang. et al.
Nature Catalysis, 2021, 4, 212-222.
Electrochemical redox materials especially lithium-ion batteries promise efficient energy transformation between chemical and electrical energy.
This study is centered on understanding and developing highly-active electrocatalysts for efficient generation of hydrogen energy
We are dedicated to discovering design rule of next-generation thermoelectric materials from inorganic semiconductors, metal interconnects, and interfaces.