Quan Quan, Lai Zhengxun, Bao Yan, Bu Xiuming, Meng You, Wang Wei, Takahashi Tsunaki, Hosomi Takuro, Nagashima Kazuki, Yanagida Takeshi, Liu Chuntai, Lu Jian, Ho Johnny C
Department of Materials Science and Engineering, City University of Hong Kong, Hong Kong SAR, 999077, China.
Department of Mechanical Engineering, City University of Hong Kong, Hong Kong SAR, 999077, China.
Small. 2021 Feb;17(7):e2006860. doi: 10.1002/smll.202006860. Epub 2021 Jan 22.
2D metal phosphide loop-sheet heterostructures are controllably synthesized by edge-topological regulation, where Ni P nanosheets are edge-confined by the N-doped carbon loop, containing ultrafine NiFeP nanocrystals (denoted as NiFeP@NC/Ni P). This loop-sheet feature with lifted-edges prevents the stacking of nanosheets and induces accessible open channels for catalytic site exposure and gas bubble release. Importantly, these NiFeP@NC/Ni P hybrids exhibit a remarkable oxygen evolution activity with an overpotential of 223 mV at 20 mA cm and a Tafel slope of 46.1 mV dec , constituting the record-high performance among reported metal phosphide electrocatalysts. The NiFeP@NC/Ni P hybrids are also employed as both anode and cathode to achieve an alkaline electrolyzer for overall water splitting, delivering a current density of 10 mA cm with a voltage of 1.57 V, comparable to that of the commercial Pt/C||RuO couple (1.56 V). Moreover, a photovoltaic-electrolysis coupling system can as well be effectively established for robust overall water splitting. Evidently, this ingenious protocol would expand the toolbox for designing efficient 2D nanomaterials for practical applications.
通过边缘拓扑调控可控制备二维金属磷化物环片异质结构,其中镍磷纳米片被氮掺杂碳环边缘限制,包含超细镍铁磷纳米晶体(表示为NiFeP@NC/NiP)。这种具有边缘凸起的环片特征可防止纳米片堆叠,并诱导出可用于催化位点暴露和气泡释放的开放通道。重要的是,这些NiFeP@NC/NiP杂化物表现出显著的析氧活性,在20 mA cm时过电位为223 mV,塔菲尔斜率为46.1 mV dec,在已报道的金属磷化物电催化剂中构成了创纪录的高性能。NiFeP@NC/NiP杂化物还被用作阳极和阴极,以实现用于全水解的碱性电解槽,在1.57 V的电压下提供10 mA cm的电流密度,与商业Pt/C||RuO对(1.56 V)相当。此外,还可以有效地建立一个光伏 - 电解耦合系统用于稳健的全水解。显然,这种巧妙的方案将扩展用于设计实际应用中高效二维纳米材料的工具箱。
