Spatial Sites Separation Strategy to Fabricate Atomically Isolated Nickel Catalysts for Efficient CO2 Electroreduction

催化作用 单体 材料科学 热解 碳纤维 过渡金属 卟啉 金属 聚合 化学工程 电催化剂 电化学 化学 光化学 有机化学 电极 聚合物 冶金 物理化学 复合数 工程类 复合材料
作者
Qiao Wu,Jun Liang,Zailai Xie,Yuan‐Biao Huang,Rong Cao
出处
期刊:ACS materials letters [American Chemical Society]
卷期号:3 (5): 454-461 被引量:37
标识
DOI:10.1021/acsmaterialslett.1c00090
摘要

Fabrication of highly active carbon-supported atomically isolated metal catalysts with maximized atomic efficiency is significant but remains a big challenge because the adjacent metal species are easy to be aggregated during pyrolysis. Herein, a spatial sites separation strategy is developed to fabricate fully atomically isolated nickel catalysts for highly efficient CO2 electroreduction reaction (CO2RR). The porous porphyrinic triazine frameworks (designated as PTF-Zn, PTF-ZnNix, and PTF-Ni100, x = 5, 20, refers to molar percentage of Ni-TPPCN monomer) were first obtained by the polymerization of the monomers 5,10,15,20-tetrakis(4-cyanophenyl)porphyrin (TPPCN) or [5,10,15,20-tetrakis(4-cyanophenyl)porphyrinato]-Ni (Ni-TPPCN) with different molar ratios in the presence of ZnCl2. The distances between the Ni-N4 units that spatially separated by in situ formed Zn-N4 units in these PTF frameworks can be controlled by tuning the ratio of the monomers of Ni-TPPCN and TPPCN. Thus, because of the successful implementation of spatial sites separation strategy, pyrolysis of PTF-ZnNi5 that the Ni-N4 units were separated by Zn-N4 moieties afforded Ni5-PFT-1000 with fully atomically isolated Ni active sites. In contrast, pyrolysis of PTF-ZnNi20 or PTF-Ni100 led to porous carbon catalysts containing nickel nanoparticles (Ni NPs) because of the very limited spatial separation of Ni-N4 units with or without Zn-N4, allowing Ni migration and aggregation to occur. Consequently, porous Ni5-PTF-1000 was highly active for CO2RR toward CO with a high Faradaic efficiency (FE) of 94% at −0.9 V, larger CO partial current density of 18.4 mA cm–2, high turnover frequency value (TOF) of 20180 h–1 at −1.0 V. In contrast, Ni20-PFT-1000 and Ni100-PFT-1000 containing Ni NPs had lower FE of 79.7% and 6.8%, respectively, for the conversion of CO2-to-CO at the same potential. This work presents a facile way to achieve highly active catalyst with fully atomically dispersed sites for CO2RR catalysis.
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