2021
DOI: 10.1016/j.rser.2021.110866
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Tapping hydrogen fuel from the ocean: A review on photocatalytic, photoelectrochemical and electrolytic splitting of seawater

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Cited by 72 publications
(34 citation statements)
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References 185 publications
(314 reference statements)
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“…184 It has been conrmed that the photogenerated charge carriers on the photocatalyst can be efficiently separated with the addition of the bias voltage, resulting in the improvement of the hydrogen production of seawater splitting. 184,186,[233][234][235][236] These results make a major contribution to hydrogen production from seawater pyrolysis. The relevant research progress has been summarized in detail in recent reviews and will not be repeated here.…”
Section: Development Of Nacl-based Electrolytes For Producing Hydrogenmentioning
confidence: 93%
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“…184 It has been conrmed that the photogenerated charge carriers on the photocatalyst can be efficiently separated with the addition of the bias voltage, resulting in the improvement of the hydrogen production of seawater splitting. 184,186,[233][234][235][236] These results make a major contribution to hydrogen production from seawater pyrolysis. The relevant research progress has been summarized in detail in recent reviews and will not be repeated here.…”
Section: Development Of Nacl-based Electrolytes For Producing Hydrogenmentioning
confidence: 93%
“…The relevant research progress has been summarized in detail in recent reviews and will not be repeated here. 184,186,233 Development of NaCl-based electrolytes for fuel cells Compared with other energy devices, fuel cells have the unique advantages of being pollution-free, noise-free and high efficiency, and are regarded as promising energy-powered devices. 237,238 In particular, solid oxide fuel cells (SOFC) as the all-solid power generation device can directly convert chemical energy stored in fuels and oxidants into electricity in an efficient and environmentally-friendly manner at medium to high temperatures.…”
Section: Development Of Nacl-based Electrolytes For Producing Hydrogenmentioning
confidence: 99%
“…Already in the first photocatalysis studies, Fujishima and Honda (1972) pointed out the potential of TiO2 [1]. Its ability to produce reactive charge carriers (both conduction band electrons (e -CB) and valence band holes (h + VB)) under appropriate illumination enabled its use in several application fields, e.g., water splitting [2][3][4][5] and environmental remediation [6]. Additional advantages of TiO2 include its chemical stability, low cost and suitable band edge positions [7].…”
Section: Introductionmentioning
confidence: 99%
“…In that regard, several stabilization techniques have already been investigated. Two general strategies are the embedment in the photocatalyst layer [5] and the formation of protective shells (with, e.g., thiols [24], xanthate [25], and silica [20]). However, these methods do not offer full control over the thickness of the protective layer, which is of paramount importance, since the layer thickness may have a negative effect on the NFE [19].…”
Section: Introductionmentioning
confidence: 99%
“…However, solid oxide electrolysis comes with a few disadvantages, e.g., the relative immaturity of the technology, the energy intensive nature of the process, high cost, low durability, and the need for ultrahigh operating temperatures [44,100]. Solid oxide electrolyzers (Figure 9) are unique on account of their need for high temperature operation, as extra heat input is required in addition to electrical input [29,114,115]. Half-cell reaction at the anode in solid oxide electrolysis is shown in Equation ( 13):…”
Section: Solid Oxide Electrolysismentioning
confidence: 99%