4.7 Article

Solar hydrogen production from seawater splitting using mixed-valence titanium phosphite photocatalyst

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ELSEVIER SCI LTD
DOI: 10.1016/j.jece.2020.104826

关键词

Photocatalysis; Titanium phosphite; Hydrogen evolution; Seawater; Solar energy

资金

  1. Ministry of Science and Technology of Taiwan (MOST) [MOST 108-2113-M-007-010, MOST 106-2113-M-007-023-MY2, MOST 105-2221-E-002206-MY3]
  2. Academia Sinica [AS-KPQ-106-DDPP]

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The unique magnesium salt of titanium phosphite (MgTiP) was synthesized and applied for photocatalytic hydrogen evolution using seawater. The addition of a sacrificial agent, FeCl2, in the system enhanced hydrogen evolution and prevented MgTiP from photo-corrosion. The ions in seawater acted as sacrificial agents and enhanced the photocatalytic hydrogen evolution while preventing MgTiP from being corroded by light.
A unique magnesium salt of titanium phosphite (MgTiP) was synthesized by the hydrothermal method and applied for the photocatalytic hydrogen evolution using seawater. The spent MgTiP was analyzed by XPS after photocatalytic reaction indicating that Ti3+ in MgTiP structure was oxidized to Ti4+ by photo-induced holes in a pure water environment, i.e., photo-corrosion. A sacrificial agent, 2 mM FeCl2 in the photocatalytic system, could enhance hydrogen evolution and prevent photo-corrosion of MgTiP. Thus this research conducted the reaction of photocatalytic hydrogen evolution using seawater. Two seawater sources were taken from the estuary of the Tamsui River and the east coast of Taiwan. The ions in seawater could act as a sacrificial agent. The result showed that the ions of seawater could enhance photocatalytic hydrogen evolution and also prevent MgTiP from photo-corrosion. The unique 12-membered ring (12 R) channels structure of MgTiP with tunable hexa-hydrated magnesium ions showed excellent photo-stability. The concentration of proton (pH) and chloride ions as hole scavenger were favorable factors. Its H-2 production rate could reach up to 629.3 mu mol.g(cat)(-1).h(-1) under simulated sunlight. Furthermore, the hydrogen evolution from photocatalytic seawater splitting showed better stability than pure water in a long-term test.

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