Role of Bismuth in the Electrokinetics of Silicon Photocathodes for Solar Rechargeable Vanadium Redox Flow Batteries

Abstract: The ability of crystalline silicon to photoassist the V 3 + /V 2 + cathodic reaction under simulated solar irradiation, combined with the effect of bismuth have led to important electrochemical improvements. Besides the photovoltage suppliedb yt he photovoltaics, additional decrease in the onset potentials, high reversibility of the V 3 + /V 2 + redox pair,a nd improvement in the electrokinetics were attained thanks to the addition of bismuth. In fact, Bi 0 deposition has shown to slightly decrease the photocu… Show more

“…Poor reactivity of the bare c-Si sample (Fig. 1a, grey) can be attributed to a deactivation of the surface by oxidation or silanol group formation, as confirmed by previous studies 2,24 . Interestingly, while the sample with Pt and TiO 2 interlayer showed almost unchanged results compared to the result from the sample without the TiO 2 in Fig.…”

“…1 and Supplementary Note 1), thereby indicating that this is not related to the chemical affinity difference between the catholyte and anolyte. It has been accepted that conventional redox reactions in RFB are non-selective with respect to the electrode material 22 unless intermediate catalytic reactions take place, such as metal hydride in the acidic supporting electrolyte 24 . Despite the fact that the redox reaction of the ferri-/ferrocyanide involves a simple single-electron transfer reaction, an apparent material dependency was observed for both cases (with and without protection layer).…”

Design principles for efficient photoelectrodes in solar rechargeable redox flow cell applications

“…Poor reactivity of the bare c-Si sample (Fig. 1a, grey) can be attributed to a deactivation of the surface by oxidation or silanol group formation, as confirmed by previous studies 2,24 . Interestingly, while the sample with Pt and TiO 2 interlayer showed almost unchanged results compared to the result from the sample without the TiO 2 in Fig.…”

“…1 and Supplementary Note 1), thereby indicating that this is not related to the chemical affinity difference between the catholyte and anolyte. It has been accepted that conventional redox reactions in RFB are non-selective with respect to the electrode material 22 unless intermediate catalytic reactions take place, such as metal hydride in the acidic supporting electrolyte 24 . Despite the fact that the redox reaction of the ferri-/ferrocyanide involves a simple single-electron transfer reaction, an apparent material dependency was observed for both cases (with and without protection layer).…”

Design principles for efficient photoelectrodes in solar rechargeable redox flow cell applications

“…So far, nearly all studies have employed front-side illumination despite the inevitable optical-loss by the electrolyte. 10,19,20,42,43 Only a few studies have been performed using back-side illumination, which allows direct photon absorption on a dry surface. 9,18,44 Döscher 35 and Seger 33 demonstrated a method to model solar water splitting technologies by using a detailed balance between the PEC device and optical losses by water with various overpotentials of the catalysts.…”

Unravelling the practical solar charging performance limits of redox flow batteries based on a single photon device system

“…Silicon has been studied as a photocathode material in a solar rechargeable VRFB [467]. Bismuth was found to effect a significant electrochemical improvement of the negative electrode reaction.…”

Electrocatalysis at Electrodes for Vanadium Redox Flow Batteries