Design Predictions of n–n Heterojunction Based Photoanode for Efficient Unbiased Overall Solar Water Splitting

Abstract: There are multiple requirements for maximizing the efficiency of photoelectrochemical overall water splitting using a single n‐type semiconducting photoanode. Many visible‐light‐responsive photoanode materials have been developed but overall water splitting by such materials without external bias has hardly been demonstrated. Herein, the aim is to scale the impact of performance improvement by an n–n heterojunction photoanode comprising an n‐type thin modification surface layer over an n‐type photon absorber, … Show more

“…On the other hand, Ta 3 N 5 with the thinner IrO x layer showed the most negative onset potential, 0.7 V versus RHE. Our previous study reported that the onset potential of the OER shifted negatively as the electrocatalyst layer thickness decreased because of favorable upward band bending at the modification layer/ photoelectrode interface, 39 consistent with the current experimental result. Nevertheless, the onset potential is still substantially more positive compared to a flatband potential of ∼0 V versus RHE.…”

Interfacial Design of a Ta₃N₅ Thin-Film Photoanode for Highly Stable Oxygen Evolution over a Wide pH Range

“…On the other hand, Ta 3 N 5 with the thinner IrO x layer showed the most negative onset potential, 0.7 V versus RHE. Our previous study reported that the onset potential of the OER shifted negatively as the electrocatalyst layer thickness decreased because of favorable upward band bending at the modification layer/ photoelectrode interface, 39 consistent with the current experimental result. Nevertheless, the onset potential is still substantially more positive compared to a flatband potential of ∼0 V versus RHE.…”

Interfacial Design of a Ta₃N₅ Thin-Film Photoanode for Highly Stable Oxygen Evolution over a Wide pH Range

“…The fundamental mechanism governing charge separation in a photoelectrode is generally discussed using a one-dimensional (1D) energy-band model (Figure S1a). − In this model, the Schottky junction at the semiconductor/electrolyte interface and the ohmic contact at the semiconductor/substrate interface give rise to the energetics that drive charge separation. Such energetics are denoted as “bulk energetics” because they drive the migration of charge carriers across the bulk of a semiconductor.…”

Elucidating the Role of Surface Energetics on Charge Separation during Photoelectrochemical Water Splitting

“…[52][53][54] For example, Ta3N5-based n-n heterojunctions have been developed by many groups. 48,[55][56][57] Recently, our group reported a guideline for the design of Ta3N5-based n-n heterojunctions. 58 However, there is little research on Ta3N5based p-n heterojunctions.…”

“…48,55–57 Recently, our group reported a guideline for the design of Ta 3 N 5 -based n–n heterojunctions. 58 However, there is little research on Ta 3 N 5 -based p–n heterojunctions. 59,60…”

“…48,[55][56][57] Recently, our group reported a guideline for the design of Ta 3 N 5 -based n-n heterojunctions. 58 However, there is little research on Ta 3 N 5 -based p-n heterojunctions. 59,60 This study investigates the numerical modeling of the photoanodic performance of a p-n heterojunction.…”

Numerical modeling investigations of the impact of a thin p-type cocatalyst modifier on an n-type photon absorber for unbiased overall solar water splitting