Boosting Alkaline Hydrogen Evolution and Zn-H2O Cell Induced by Interfacial Electron Transfer

Publication date: Available online 17 February 2020Source: Nano EnergyAuthor(s): Fanpeng Cheng, Lin Wang, Hanqing Wang, Chaojun Lei, Bin Yang, Zhongjian Li, Qinghua Zhang, Lecheng Lei, Shaobin Wang, Yang HouAbstractDirectly use of metal-organic frameworks (MOFs) as electrocatalysts by taking the intrinsic advantages of MOFs architecture for water splitting have attracted tremendous interest. Herein, we reported a vapor-phase transformation method to construct well-aligned nickel based MOFs (Ni-MOF) nanoarrays grown on electrochemical exfoliated graphite (EG) foil and further phosphorization treatment to derive a Ni-MOF/Ni2P@EG. In such a hybrid structure, Ni2P with a particle size of ∼ 9 nm was encapsulated into Ni-MOF nanorod arrays on EG foil. Profiting from super hydrophilic nature and nanoarray feature, the Ni-MOF/Ni2P@EG hybrid displayed an excellent activity of hydrogen evolution reaction (HER) with low overpotentials of 132 and 233 mV at 10 and 150 mA cm-2, respectively, as well as a small Tafel slope of 59 mV dec-1 in alkaline media, which are among the best values in all previously reported MOFs-based hybrid HER electrocatalysts and even outperform commercial Pt/C at high current density (250 mV at 150 mA cm-2). The strong coupling effect of the constructed interfaces in this hybrid resulted in an efficient electron transfer from Ni2P to Ni-MOF, which promotes the adsorption of water molecules for accelerating water dissociation step, thus boosting hydrogen generat...
Source: Nano Energy - Category: Nanotechnology Source Type: research
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