這項研究利用獨特的缺陷感應效應,優化了催化劑的非對稱配位Fe─N3S1活性位點,顯著提升了 #氧氣還原反應 的效率與穩定性。這不僅為燃料電池技術帶來新的突破,也為低成本高效能的催化劑研發開啟了新篇章。
完整研究內容,請訪問 https://doi.org/10.1002/adma.202308243
【Breakthrough Research】Collaboration between
Chang Gung University and China University of Petroleum (East China) Leads to
High-Efficiency Single-Atom Catalyst Study!
Newly published in Advanced Materials: "Vacancy Defects Inductive
Effect of Asymmetrically Coordinated Single‐Atom Fe N3S1 Active Sites for
Robust Electrocatalytic Oxygen Reduction". A collaborative effort between
Prof. Hsiao-Chien Chen from Chang Gung University's Center for Sustainability
and Energy Technologies and Prof. Yuan Pan from the China University of
Petroleum (East China) has yielded a novel single-atom iron catalyst.
This research, featuring unique vacancy defect inductive effects, optimizes the asymmetrically coordinated Fe─N3S1 active sites, significantly enhancing the efficiency and stability of the oxygen reduction reaction. This breakthrough not only revolutionizes fuel cell technology but also opens a new chapter for the development of cost-effective and high-performance catalysts.
For full research details, visit https://doi.org/10.1002/adma.202308243
#ChangGungUniversity #CenterForSustainabilityAndEnergyTechnologies #CGU #CSET #SingleAtomCatalyst #OxygenReductionReaction #ResearchCollaboration