A robust ALD-protected silicon-based hybrid photoelectrode for hydrogen evolution under aqueous conditions

Chandrasekaran, Soundarrajan; Kaeffer, Nicolas; Cagnon, Laurent; Aldakov, Dmitry; Fize, Jennifer; Nonglaton, Guillaume; Baleras, F.; Mailley, Pascal; Artero, Vincent

doi:10.1039/c8sc05006f

Cited by 32 publications

(35 citation statements)

References 36 publications

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“…Preparation of Zr(NDI) thin films. ALD-deposited TiO 2 has been used as an interface to immobilize molecular catalysts at semiconductors [22][23][24]31 , and in our construct, provides a metal oxide surface for anchoring the carboxylate-functionalized NDI linker. TiO 2 was deposited by ALD onto freshly etched semiconductor (SC, where SC is Si or GaP) wafers using 100 alternating TiCl 4 :H 2 O cycles at 200°C, which results in TiO 2 @SC samples amenable to the attachment of carboxylate groups 32 .…”

Section: Resultsmentioning

confidence: 99%

“…Formation of a p-n junction at p-GaP using an ALD-deposited layer of n-Nb 2 O 5 and a Pt catalyst resulted in a record photovoltage of 710 mV, an improvement of 360 mV compared to a GaP photocathode with Pt only and no metal oxide layer 9 . Molecular functionalization of semiconductors can also lower barriers for photoelectrochemical reactions 14,[17][18][19][20][21][22][23][24][25] . In the context of metal-organic hybrid constructs, Downes and Marinescu 26 demonstrated photoelectrochemical H 2 evolution in H 2 SO 4 solution (pH 1.3) by a cobalt dithiolene polymer composing a metal-organic surface (MOS) dropcast onto p-type Si electrodes.…”

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confidence: 99%

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Enhancing photovoltages at p-type semiconductors through a redox-active metal-organic framework surface coating

et al. 2020

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Surface modification of semiconductors can improve photoelectrochemical performance by promoting efficient interfacial charge transfer. We show that metal-organic frameworks (MOFs) are viable surface coatings for enhancing cathodic photovoltages. Under 1-sun illumination, no photovoltage is observed for p-type Si(111) functionalized with a naphthalene diimide derivative until the monolayer is expanded in three dimensions in a MOF. The surface-grown MOF thin film at Si promotes reduction of the molecular linkers at formal potentials >300 mV positive of their thermodynamic potentials. The photocurrent is governed by charge diffusion through the film, and the MOF film is sufficiently conductive to power reductive transformations. When grown on GaP(100), the reductions of the MOF linkers are shifted anodically by >700 mV compared to those of the same MOF on conductive substrates. This photovoltage, among the highest reported for GaP in photoelectrochemical applications, illustrates the power of MOF films to enhance photocathodic operation.

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Section: Resultsmentioning

confidence: 99%

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confidence: 99%

Enhancing photovoltages at p-type semiconductors through a redox-active metal-organic framework surface coating

et al. 2020

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“…Additional evidence that the photocurrent is under diffusional control is found through modeling the current under finite diffusion conditions. P-type Si and GaP have previously been used as substrates for hydrogen evolution and carbon dioxide reduction, [20][21][22][23][46][47][48][49][50] and these findings indicate that the advantages of MOFs, such as their high surface area and porosity combined with their ability to house and stabilize molecular catalysts, may be integrated with these SCs for MOF-based photoelectrosynthetic applications. We have shown that the construct can be operated in aqueous conditions, a promising feature in the context of light-driven hydrogen evolution.…”

Section: Resultsmentioning

confidence: 97%

“…9 Molecular functionalization of semiconductors can also lower barriers for photoelectrochemical catalysis. 14,[17][18][19][20][21][22][23][24][25] In the context of metal-organic hybrid constructs, Downes and Marinescu demonstrated photoelectrochemical H2 evolution in H2SO4 solution (pH 1.3) by a cobalt dithiolene polymer composing a metal-organic surface (MOS) dropcast onto p-type Si electrodes. 26 In this study, the electrochemical potential required to achieve equivalent rates of H2 evolution was 550 mV less under illumination than that of the MOS at Scheme 1.…”

Section: Couplesmentioning

confidence: 99%

“…ALD-deposited TiO2 has been used as an interface to immobilize molecular catalysts at semiconductors 23,24,31,32 and in our construct provides a metal oxide surface for anchoring the carboxylate-functionalized NDI linker. TiO2 was deposited by ALD onto freshly etched semiconductor (SC, where SC is Si or GaP) wafers using 100 alternating TiCl4:H2O cycles at 200 ⁰C, which results in TiO2@SC samples amenable to the attachment of carboxylate groups.…”

Section: Preparation Of Zr(ndi) Thin Filmsmentioning

confidence: 99%

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Enhancing Photovoltages at p-Type Semiconductors Through a Redox-active Metal-Organic Framework Surface Coating

Beiler¹,

McCarthy²,

Johnson³

et al. 2020

Preprint

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Metal-organic frameworks (MOFs) interfaced with visible-light-absorbing semiconductors offer a novel approach to improve photoelectrochemical performances. When tested under 1-sun illumination, a naphthalene diimide (NDI)-based monolayer immobilized at p-type Si(111) undergoes two sequential one-electron reductions close to their thermodynamic potentials. No photovoltage is observed until the NDI monolayer is expanded in three dimensions in a PIZOF-type Zr(NDI) MOF (PIZOF = porous interpenetrated zirconium organic framework). The surface-grown MOF thin film promotes photo-induced charge separation and electron transfer across the interface and through the film, resulting in reduction of the molecular linkers at formal potentials >300 mV positive of their thermodynamic potentials. The apparent diffusion coefficient is similar to that measured at a conductive electrode (10-10 cm2 s-1), indicating that the observed photocurrent is governed by charge diffusion through the Zr(NDI) MOF film. The charges accumulated in the NDI-based MOF can be extracted by an external electron acceptor, demonstrating sufficient conductivity throughout the MOF film to power reductive transformations. When grown on GaP(100), the potentials of the NDI reductions in the MOF film are shifted anodically by >700 mV compared to those of the same MOF on conductive substrates. This photovoltage, among the highest reported for GaP in photoelectrochemical applications, illustrates the power of MOF thin films to improve photocathodic performance.

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Conjugated Linkers Improve the Photoelectrocatalytic H₂‐Evolution Activity of Cobaloxime‐Modified Silicon Photocathodes by Largely Suppressing Charge Recombination

Gong

Yin

Tian

et al. 2021

Adv Materials Inter

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For molecular catalyst‐modified semiconductor hybrid photoelectrodes, the linker that tethers a molecular catalyst to an electrode surface is one of the important structural factors to influence the photoelectrocatalytic (PEC) H2‐evolution activity of the photoelectrode. A better understanding about the impact of different linkers on charge transfer kinetics of hybrid photoelectrodes will shed light on the design of more efficient photoelectrodes for the selected molecular catalyst and semiconductor. In this work, a series of cobaloxime catalysts, CoPy‐4‐L‐HA (CoPy = cobaloxime; HA = hydroxamate anchor; L = none, CH2, CHCH, and (CHCH)2), are immobilized to the surface of p‐Si|TiO2 with different linkers. Comparative studies on PEC performance of these hybrid photocathodes reveal that the p‐Si|TiO2|CoPy‐4‐(CHCH)2‐HA) electrode exhibits the highest PEC activity among the tested photocathodes, despite the longer linker of (CHCH)2 compared to other ones. The j(0 V) of −0.68 mA cm−2 for p‐Si|TiO2|CoPy‐4‐(CHCH)2‐HA is higher than those reported for planar Si‐based photocathodes decorated with molecular catalysts. The impacts of the length and conjugation property of linkers on the kinetics of surface charge transfer and recombination are probed by transient absorption spectroscopy, and the results well clarify the origin for the disparity in the PEC activities of p‐Si|TiO2|CoPy‐4‐L‐HA photocathodes with different linkers.

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A robust ALD-protected silicon-based hybrid photoelectrode for hydrogen evolution under aqueous conditions

Abstract: Hybrid systems combining molecular catalysts with inorganic materials is a promising solution towards cheap yet efficient and stable photoelectrochemical hydrogen production.

Cited by 32 publications

References 36 publications

Enhancing photovoltages at p-type semiconductors through a redox-active metal-organic framework surface coating

Enhancing photovoltages at p-type semiconductors through a redox-active metal-organic framework surface coating

Enhancing Photovoltages at p-Type Semiconductors Through a Redox-active Metal-Organic Framework Surface Coating

Conjugated Linkers Improve the Photoelectrocatalytic H₂‐Evolution Activity of Cobaloxime‐Modified Silicon Photocathodes by Largely Suppressing Charge Recombination

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A robust ALD-protected silicon-based hybrid photoelectrode for hydrogen evolution under aqueous conditions

Abstract: Hybrid systems combining molecular catalysts with inorganic materials is a promising solution towards cheap yet efficient and stable photoelectrochemical hydrogen production.

Cited by 32 publications

References 36 publications

Enhancing photovoltages at p-type semiconductors through a redox-active metal-organic framework surface coating

Enhancing photovoltages at p-type semiconductors through a redox-active metal-organic framework surface coating

Enhancing Photovoltages at p-Type Semiconductors Through a Redox-active Metal-Organic Framework Surface Coating

Conjugated Linkers Improve the Photoelectrocatalytic H2‐Evolution Activity of Cobaloxime‐Modified Silicon Photocathodes by Largely Suppressing Charge Recombination

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Conjugated Linkers Improve the Photoelectrocatalytic H₂‐Evolution Activity of Cobaloxime‐Modified Silicon Photocathodes by Largely Suppressing Charge Recombination