*Nature Sustainability-  June 2025
材料工程系童敬維老師與台灣大學團隊於《Nature Sustainability》發表綠色氫能重大突破研究成果！開發出高性能分子電催化劑。
 

Tung, Ching-Wei, et al. "Spin crossover-driven diiron electrocatalyst boosts sustainable water oxidation." Nature Sustainability (2025): 1-13.

本月(June 2, 2025)本系童敬維老師與台灣大學陳浩銘老師團隊合作，於國際權威期刊《Nature Sustainability》（自然–永續性，影響因子IF 26.2）發表一項極具突破性之研究成果。研究團隊成功開發出一種由自旋交叉驅動的雙核心二聚策略所設計的雙鐵分子電催化劑，在水解產氫反應中展現出低過電位、高反應速率（TOF）及卓越的長期穩定性。此成果不僅拓展了分子催化設計的理論基礎，更為高效率與可永續產氫材料提供了重要研究方向，為未來氫能應用與淨零碳排能源系統注入全新動能。

This month (June 2, 2025), Prof. Ching-Wei Tung from our department, in collaboration with a research team from National Taiwan University, published a significant research achievement in the prestigious international journal Nature Sustainability (IF 26.2). The team successfully developed a bimetallic iron molecular electrocatalyst designed through a spin-crossover-driven dimerization strategy. This catalyst exhibited low overpotential, high turnover frequency (TOF), and excellent long-term stability in water-splitting hydrogen evolution reactions. This breakthrough not only advances the theoretical foundation of molecular catalyst design but also provides a key synthetic direction for the development of efficient and sustainable hydrogen production materials—injecting new momentum into future hydrogen energy applications and net-zero carbon energy systems.

延伸閱讀：

• *nature sustainability - Spin crossover-driven diiron electrocatalyst boosts sustainable water oxidation

材料工程系官網：【最新研究突破】本系童敬維老師與團隊最新研究突破 由 Nature Sustainability（自然–永續性 IF 26.2） 權威科學期刊雜誌刊登