Advanced Energy Storage Technology Research Center, Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences, Shenzhen, 518055, China.
Synchrotron Light Research Institute, Nakhon Ratchasima, 30000, Thailand.
Adv Mater. 2023 Jun;35(24):e2300381. doi: 10.1002/adma.202300381. Epub 2023 Apr 27.
Although being transition metals, the Fenton-inactive group 3-4 elements (Sc, Y, La, Ti, Zr, and Hf) can easily lose all the outermost s and d electrons, leaving behind ionic sites with nearly empty outermost orbitals that are stable but inactive for oxygen involved catalysis. Here, it is demonstrated that the dynamic coordination network can turn these commonly inactive ionic sites into platinum-like catalytic centers for the oxygen reduction reaction (ORR). Using density functional theory calculations, a macrocyclic ligand coordinated yttrium single-atom (YN ) moiety is identified, which is originally ORR inactive because of the too strong binding of hydroxyl intermediate, while it can be activated by an axial ligand X through the covalency competition between YX and YOH bonds. Strikingly, it is also found that the binding force of the axially coordinated ligand is an effective descriptor, and the chlorine ligand is screened out with an optimal binding force that behaves self-adaptively to facilitate each ORR intermediate steps by dynamically changing its YCl covalency. These experiments validate that the as-designed YN -Cl moieties embedded within the carbon framework exhibit a high half-wave potential (E = 0.85 V) in alkaline media, the same as that of the commercial Pt/C catalyst .
尽管属于过渡金属,但 Fenton 惰性的第 3-4 族元素(Sc、Y、La、Ti、Zr 和 Hf)很容易失去所有最外层的 s 和 d 电子,留下具有几乎空的最外层轨道的离子位,这些轨道位虽然稳定但对涉及氧气的催化作用不活跃。在这里,研究表明动态配位网络可以将这些通常不活跃的离子位转化为类铂催化中心,用于氧气还原反应(ORR)。通过密度泛函理论计算,确定了大环配体配位的钇单原子(YN )部分,由于羟基中间体的强结合,它最初对 ORR 不活跃,但可以通过轴向配体 X 通过 YX 和 YOH 键之间的共价竞争来激活。引人注目的是,还发现轴向配位配体的结合力是一个有效的描述符,轴向配位的氯配体被筛选出来,其最佳结合力表现出自适应能力,通过动态改变其 YCl 共价键,促进每个 ORR 中间步骤。这些实验验证了设计的 YN -Cl 部分嵌入在碳骨架中,在碱性介质中表现出高的半波电位(E = 0.85 V),与商业 Pt/C 催化剂相同。
