Son Seok Jin

TL;DR: In this paper , the catalytic behavior and active site geometry of carbon-based single metal atom catalysts (SACs) were investigated to improve the kinetics of the Li-S redox reaction.

TL;DR: In this paper , a series of graphene doped with nonmetal elements (nitrogen, phosphorus, and sulfur) are designed and synthesized, and nitrogen-doped graphene has a superior electrocatalytic reduction reaction (SRR) catalytic activity with highest electrochemical reversibility and best electrochemical kinetics for the liquid-solid two-phase conversion from long-chain soluble Li2Sx (4,≤

TL;DR: In this paper , the correlation between the diversity of hybridization and sulfur reduction reaction (SRR) catalytic activity remains unclear, and two forms of carbon models, i.e., graphitic carbon (GC) and amorphous carbon (AC), are established, and the nitrogen atom doped in the GC possesses a higher local charge density and a lower Gibbs free energy towards the formation of polysulfides than in the AC.

TL;DR: In this paper , the formation process of interconnected liquid regions for ion transport in frozen electrolytes with various in situ variable-temperature technologies was revealed, and the low temperature performance of ABs was significantly improved with the colloidal electrolyte design using graphene oxide quantum dots (GOQDs), which effectively inhibited the growth of ice crystals and expanded the interconnected liquid region for facial ion transport.