2016
DOI: 10.1002/pssa.201533025
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Modeling and practical realization of thin film silicon‐based integrated solar water splitting devices

Abstract: An integrated solar water splitting device based on thin film silicon multijunction photocathodes is presented. A graphical representation of the photovoltaic current–voltage data is introduced which allows for an estimation of the maximum achievable solar‐to‐hydrogen efficiency of the integrated device. Furthermore, a simple yet very useful series circuit model is used to predict the photoelectrochemical performance of the integrated device in a more elaborate way when the j–V characteristics of the individua… Show more

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Cited by 24 publications
(33 citation statements)
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“…The theoretical, ideal operation point of a light induced water splitting device is indicated at E thermo. = 1.23 V. Including the electrode overpotentials, the voltage at the operation point must be in the range of 1.5–2 V. Adapted with permission …”
Section: Multi‐junction Thin Film Silicon Solar Cells For Water Splitmentioning
confidence: 99%
See 1 more Smart Citation
“…The theoretical, ideal operation point of a light induced water splitting device is indicated at E thermo. = 1.23 V. Including the electrode overpotentials, the voltage at the operation point must be in the range of 1.5–2 V. Adapted with permission …”
Section: Multi‐junction Thin Film Silicon Solar Cells For Water Splitmentioning
confidence: 99%
“…The operating voltage (0 V) for unbiased solar driven water splitting is indicated. Adapted with permission …”
Section: Multi‐junction Thin Film Silicon Solar Cells For Water Splitmentioning
confidence: 99%
“…Since H 2 is attainable as the reduction product of H + cation it is then mandatory to focus the attention towards p-type electrodes having photoelectrocatalytic properties [62][63][64] towards the reduction of the proton either in the pristine state or with the surface modified by a dye-absorber/photocatalytic agent [65,66]. A comprehensive list of p-type semiconductor cathodes for the photoelectrochemical production of H 2 has been given recently in [67] when the design of optimized photoelectrochemical water splitting cells [68,69] was considered, and solar radiation represented the primary energy source for the activation of this conversion device [70]. One of the main concerns at the basis of the development of PECs for water splitting [71] which produce molecular H 2 at the (photo)cathode and O 2 at the (photo)anode is the replacement of precious metals like Pt or Ru photoelectrocatalysts with durable semiconducting electrodes of p-type based on cheaper metal oxides, phosphides and sulfides/disulfides or Si, in order to photoactivate HER (hydrogen evolution reaction).…”
Section: Photoelectrodes Of P-type For Non Fossil Fuel (H 2 ) Productionmentioning
confidence: 99%
“…A comprehensive list of p-type semiconductor cathodes for the photoelectrochemical production of H2 has been given recently in [67] when the design of optimized photoelectrochemical water splitting cells [68,69] was considered, and solar radiation represented the primary energy source for the activation of this conversion device [70]. One of the main concerns at the basis of the development of PECs for water splitting [71] The Ru-complex O22 immobilized on NiO surface is the dye-sensitizer acting as an electron donor towards the co-catalyst CodmgBF2, and as an electron acceptor from NiO.…”
Section: Photoelectrodes Of P-type For Non Fossil Fuel (H 2 ) Productionmentioning
confidence: 99%
“…To predict the PV‐EC behavior and the STH efficiency under varying conditions, an electrical series connection model of the integrated device was used that combines the J‐V characteristics of the individual components . Here, the measured J‐V curves of the a‐Si : H/a‐Si : H/μc‐Si : H cell under varying conditions were combined with the measured respective linear sweep voltammetry (LSV) curves of the different catalyst systems.…”
Section: Introductionmentioning
confidence: 99%