The successful implementation of an electrocatalytic reverse artificial nitrogen cycle requires a highly effective catalyst to reach its ground-breaking potential. In their recent Nature Energy article,¹ Shao et al. showcased a catalyst design strategy of high precision, integrating density functional theory calculations with experimentation—resulting in a high-performance Cu₆Sn₅ catalyst, a foundational leap in enhancing nitric oxide-ammonia production rates.

中文翻译：

---

从一氧化氮到氨：释放电化学的潜力

电催化逆向人工氮循环的成功实施需要高效的催化剂才能发挥其突破性潜力。在他们最近的《自然能源》文章中，¹ Shao 等人。展示了高精度的催化剂设计策略，将密度泛函理论计算与实验相结合，从而产生了高性能的 Cu ₆ Sn ₅催化剂，这是提高一氧化氮-氨产率的根本性飞跃。