상세 보기
- Park, Junbeom;
- Park, Jaemin;
- Seok, Jun Ho;
- Byun, Ji Soo;
- Oh, Cheoulwoo;
- ... Park, Ho Seok;
- ... Lee, Sang Uck;
- ... Yang, Wooseok;
- 외 9명
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0초록
The sluggish kinetics of the oxygen reduction reaction (ORR) remain a major bottleneck for energy conversion systems such as fuel cells and metal–air batteries. Here, the synthesis of molybdenum single-atom catalysts (Mo SACs) derived from abundant and low-cost Kraft lignin is reported. By tuning nitrogen incorporation during carbonization, agglomerated Mo carbide clusters are progressively converted into atomically dispersed Mo active centers anchored on N-doped carbon. Extensive spectroscopic analyses confirm this structural evolution, while density functional theory calculations reveal that the optimized Mo coordination environment downshifts the d-band center, enabling the balanced adsorption of oxygen intermediates and thereby improving the intrinsic ORR activity. Electrochemical measurements demonstrate enhanced half-wave potential, near-four-electron transfer pathway, superior selectivity, and excellent durability, with ≈85% current retention over 50 h. Beyond performance, the use of minimally processed Kraft lignin underscores both the economic and environmental advantages of this approach, offering a scalable and sustainable pathway to practical ORR electrocatalysts.
키워드
- 제목
- Modulation of Electronic Structure in Kraft Lignin-Derived Mo Single-Atom Catalysts for Optimized Electrochemical Oxygen Reduction
- 저자
- Park, Junbeom; Park, Jaemin; Seok, Jun Ho; Byun, Ji Soo; Oh, Cheoulwoo; Kim, Eung-Dab; Ko, Young-Jin; Kim, Youngeun; Sim, Gawon; Kim, Min Jae; Bang, Hyeon-Seok; Park, Ho Seok; Yoo, Chun-Jae; Lee, Sang Uck; Oh, Hyung-Suk; Kim, Kwang Ho; Yang, Wooseok
- 발행일
- 2025-12
- 유형
- Article; Early Access
- 저널명
- Advanced Science
- 권
- 13
- 호
- 12