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1.	Wang, Haibin, et al. (författare) Strain in Copper/Ceria Heterostructure Promotes Electrosynthesis of Multicarbon Products 2023 Ingår i: ACS Nano. - : American Chemical Society. - 1936-0851 .- 1936-086X. ; 17:1, s. 346-354 Tidskriftsartikel (refereegranskat)abstract Elastic strains in metallic catalysts induce enhanced selectivity for carbon dioxide reduction (CO2R) toward valuable multicarbon (C2+) products. However, under working conditions, the structure of catalysts inevitably undergoes reconstruction, hardly retaining the initial strain. Herein, we present a metal/metal oxide synthetic strategy to introduce and maintain the tensile strain in a copper/ceria heterostructure, enabled by the presence of a thin interface layer of Cu2O/CeO2. The tensile strain in the copper domain and deficient electron environment around interfacial Cu sites resulted in strengthened adsorption of carbonaceous intermediates and promoted*CO dimerization. The strain effect in the copper/ceria heterostructure leads to an improved C2+ selectivity with a maximum Faradaic efficiency of 76.4% and a half-cell power conversion efficiency of 49.1%. The fundamental insights gained from this system can facilitate the rational design of heterostructure catalysts for CO2R.
2.	Wang, Ning, et al. (författare) Boride-derived oxygen-evolution catalysts 2021 Ingår i: Nature Communications. - : Springer Nature. - 2041-1723. ; 12 Tidskriftsartikel (refereegranskat)abstract Metal borides/borates have been considered promising as oxygen evolution reaction catalysts; however, to date, there is a dearth of evidence of long-term stability at practical current densities. Here we report a phase composition modulation approach to fabricate effective borides/borates-based catalysts. We find that metal borides in-situ formed metal borates are responsible for their high activity. This knowledge prompts us to synthesize NiFe-Boride, and to use it as a templating precursor to form an active NiFe-Borate catalyst. This boride-derived oxide catalyzes oxygen evolution with an overpotential of 167 mV at 10 mA/cm2 in 1 M KOH electrolyte and requires a record-low overpotential of 460 mV to maintain water splitting performance for over 400 h at current density of 1 A/cm2. We couple the catalyst with CO reduction in an alkaline membrane electrode assembly electrolyser, reporting stable C2H4 electrosynthesis at current density 200 mA/cm2 for over 80 h.

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Typ av publikation: tidskriftsartikel (2)

Typ av innehåll: refereegranskat (2)

Författare/redaktör: Vomiero, Alberto (2); Liu, Yongchang (2); Sun, Xuhui (2); Liang, Hongyan (2); Ozden, Adnan (2); Yao, Kaili (2); visa fler...; Wang, Ziyun (2); Huang, Yan (1); Li, Jun (1); Zhang, Hao (1); Wang, Ning (1); Qian, Zhao (1); Wang, Haibin (1); Han, Mei (1); Han, Jingrui (1); Seifitokaldani, Ali (1); Lu, Ying-Rui (1); Sargent, Edward H. (1); Wang, Yuhang (1); Sinton, David (1); Wang, Haiyu (1); Li, Huamin (1); Guo, Qianying (1); Xu, Aoni (1); Ou, Pengfei (1); Hung, Sung-Fu (1); Abed, Jehad (1); Yan, Yu (1); Sun, Meng-Jia (1); Xia, Yujian (1); Wu, Feng-Yi (1); Chen, Pei-Hsuan (1); visa färre...

Lärosäte: Luleå tekniska universitet (2)

Språk: Engelska (2)

Forskningsämne (UKÄ/SCB): Naturvetenskap (2)

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