Self‐Powered Hydrogen Production From Seawater Enabled by Trifunctional Exfoliated PtTe Nanosheet Catalysts

Yu, Zhipeng; D'Olimpio, Gianluca; Huang, Haoliang; Kuo, Chia‐Nung; Lue, Chin Shan; Nicotra, Giuseppe; Lin, Fei; Boukhvalov, Danil W.; Politano, Antonio; Liu, Lifeng

doi:10.1002/adfm.202403099

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2024

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Cited by 3 publications

References 56 publications

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FeNiCo@lyocell-based carbon cloth cathode for enhanced seawater electrolysis with bipolar membrane

Jae Lee,

Eom,

Gun Kim

et al. 2024

Chemical Engineering Journal

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FeNiCo@lyocell-based carbon cloth cathode for enhanced seawater electrolysis with bipolar membrane

Jae Lee,

Eom,

Gun Kim

et al. 2024

Chemical Engineering Journal

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Water for Green Hydrogen Production

Klosok-Bazan,

Gono,

Svehlakova

2024

2024 24th International Scientific Conference on Electric Power Engineering (EPE)

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Platinum/Platinum Sulfide on Sulfur-Doped Carbon Nanosheets with Multiple Interfaces toward High Hydrogen Evolution Activity

Zhang,

Su,

Zhang

et al. 2024

Molecules

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Platinum (Pt)-based materials are among the most competitive electrocatalysts for the hydrogen evolution reaction (HER) due to suitable hydrogen adsorption energy. Due to the rarity of Pt, it is desirable to develop cost-effective Pt-based electrocatalysts with low Pt loading. Herein, Pt/PtS electrocatalysts on S-doped carbon nanofilms (PPS/C) have been successfully fabricated through a precursor reduction route with a complex of Pt and 1-dodecanethiol (1-DDT) as the precursor. The PPS/C achieved at 400 °C (PPS/C-400) exhibits excellent HER performances with an ultralow overpotential of 41.3 mV, a low Tafel slope of 43.1 mV dec−1 at a current density of 10 mA cm−2, and a long-term stability of 10 h, superior to many recently reported Pt-based HER electrocatalysts. More importantly, PPS/C-400 shows a high mass-specific activity of 0.362 A mgPt−1 at 30 mV, which is 1.88 times of that of commercial 20% Pt/C (0.193 A mgPt−1). The introduction of sulfur leads to the formation of PtS, which not only reduces the content of Pt but also realizes the interface regulation of Pt/PtS, as well as the doping of carbon. Both regulations make the resulting catalyst have abundant active centers and rapid electron transfer/transport, which is conducive to balancing the adsorption and resolution of intermediate products, and finally achieving great mass-specific activity and stability. The research work may provide ideas for designing effective Pt-based multi-interface electrocatalysts.

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Self‐Powered Hydrogen Production From Seawater Enabled by Trifunctional Exfoliated PtTe Nanosheet Catalysts

Cited by 3 publications

References 56 publications

FeNiCo@lyocell-based carbon cloth cathode for enhanced seawater electrolysis with bipolar membrane

FeNiCo@lyocell-based carbon cloth cathode for enhanced seawater electrolysis with bipolar membrane

Water for Green Hydrogen Production

Platinum/Platinum Sulfide on Sulfur-Doped Carbon Nanosheets with Multiple Interfaces toward High Hydrogen Evolution Activity

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