Charge dynamics at heterojunctions for PbS/ZnO colloidal quantum dot solar cells probed with time-resolved surface photovoltage spectroscopy

B. F. Spencer; M. A. Leontiadou; P. C.J. Clark; A. I. Williamson; M. G. Silly; F. Sirotti; S. M. Fairclough; S. C.E. Tsang; D. C.J. Neo; H. E. Assender; A. A.R. Watt; W. R. Flavell

doi:10.1063/1.4943077

Charge dynamics at heterojunctions for PbS/ZnO colloidal quantum dot solar cells probed with time-resolved surface photovoltage spectroscopy

B. F. Spencer, M. A. Leontiadou, P. C.J. Clark, A. I. Williamson, M. G. Silly, F. Sirotti, S. M. Fairclough, S. C.E. Tsang, D. C.J. Neo, H. E. Assender, A. A.R. Watt, W. R. Flavell

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Abstract

Time-resolved laser-pump X-ray-photoemission-probe spectroscopy of a ZnO (101¯0) substrate with and without PbS quantum dots (QDs) chemically linked to the surface is performed, using laser photon energies resonant with and below the band gap energy of the substrate (λ = 372 and 640 nm, hν = 3.33 and 1.94 eV). Charge injection from the photoexcited QDs to ZnO is demonstrated through the change in the surface photovoltage of the ZnO substrate observed when the heterojunction is illuminated with 1.94 eV radiation. The measured carrier dynamics are limited by the persistent photoconductivity of ZnO, giving dark carrier lifetimes of the order of 200 μs in a depletion layer at the interface. The chemical specificity of soft X-rays is used to separately measure the charge dynamics in the quantum dots and the substrate, yielding evidence that the depletion region at the interface extends into the PbS QD layer.

Original language	English
Article number	091603
Journal	Applied Physics Letters
Volume	108
Issue number	9
DOIs	https://doi.org/10.1063/1.4943077
Publication status	Published - 29 Feb 2016
Externally published	Yes

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Spencer, B. F., Leontiadou, M. A., Clark, P. C. J., Williamson, A. I., Silly, M. G., Sirotti, F., Fairclough, S. M., Tsang, S. C. E., Neo, D. C. J., Assender, H. E., Watt, A. A. R., & Flavell, W. R. (2016). Charge dynamics at heterojunctions for PbS/ZnO colloidal quantum dot solar cells probed with time-resolved surface photovoltage spectroscopy. Applied Physics Letters, 108(9), Article 091603. https://doi.org/10.1063/1.4943077

@article{9618c47eb92c4968b238bec21d429602,

title = "Charge dynamics at heterojunctions for PbS/ZnO colloidal quantum dot solar cells probed with time-resolved surface photovoltage spectroscopy",

abstract = "Time-resolved laser-pump X-ray-photoemission-probe spectroscopy of a ZnO (101¯0) substrate with and without PbS quantum dots (QDs) chemically linked to the surface is performed, using laser photon energies resonant with and below the band gap energy of the substrate (λ = 372 and 640 nm, hν = 3.33 and 1.94 eV). Charge injection from the photoexcited QDs to ZnO is demonstrated through the change in the surface photovoltage of the ZnO substrate observed when the heterojunction is illuminated with 1.94 eV radiation. The measured carrier dynamics are limited by the persistent photoconductivity of ZnO, giving dark carrier lifetimes of the order of 200 μs in a depletion layer at the interface. The chemical specificity of soft X-rays is used to separately measure the charge dynamics in the quantum dots and the substrate, yielding evidence that the depletion region at the interface extends into the PbS QD layer.",

author = "Spencer, \{B. F.\} and Leontiadou, \{M. A.\} and Clark, \{P. C.J.\} and Williamson, \{A. I.\} and Silly, \{M. G.\} and F. Sirotti and Fairclough, \{S. M.\} and Tsang, \{S. C.E.\} and Neo, \{D. C.J.\} and Assender, \{H. E.\} and Watt, \{A. A.R.\} and Flavell, \{W. R.\}",

note = "Publisher Copyright: {\textcopyright} 2016 Author(s).",

year = "2016",

month = feb,

day = "29",

doi = "10.1063/1.4943077",

language = "English",

volume = "108",

journal = "Applied Physics Letters",

issn = "0003-6951",

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Spencer, BF, Leontiadou, MA, Clark, PCJ, Williamson, AI, Silly, MG, Sirotti, F, Fairclough, SM, Tsang, SCE, Neo, DCJ, Assender, HE, Watt, AAR & Flavell, WR 2016, 'Charge dynamics at heterojunctions for PbS/ZnO colloidal quantum dot solar cells probed with time-resolved surface photovoltage spectroscopy', Applied Physics Letters, vol. 108, no. 9, 091603. https://doi.org/10.1063/1.4943077

TY - JOUR

T1 - Charge dynamics at heterojunctions for PbS/ZnO colloidal quantum dot solar cells probed with time-resolved surface photovoltage spectroscopy

AU - Spencer, B. F.

AU - Leontiadou, M. A.

AU - Clark, P. C.J.

AU - Williamson, A. I.

AU - Silly, M. G.

AU - Sirotti, F.

AU - Fairclough, S. M.

AU - Tsang, S. C.E.

AU - Neo, D. C.J.

AU - Assender, H. E.

AU - Watt, A. A.R.

AU - Flavell, W. R.

PY - 2016/2/29

Y1 - 2016/2/29

N2 - Time-resolved laser-pump X-ray-photoemission-probe spectroscopy of a ZnO (101¯0) substrate with and without PbS quantum dots (QDs) chemically linked to the surface is performed, using laser photon energies resonant with and below the band gap energy of the substrate (λ = 372 and 640 nm, hν = 3.33 and 1.94 eV). Charge injection from the photoexcited QDs to ZnO is demonstrated through the change in the surface photovoltage of the ZnO substrate observed when the heterojunction is illuminated with 1.94 eV radiation. The measured carrier dynamics are limited by the persistent photoconductivity of ZnO, giving dark carrier lifetimes of the order of 200 μs in a depletion layer at the interface. The chemical specificity of soft X-rays is used to separately measure the charge dynamics in the quantum dots and the substrate, yielding evidence that the depletion region at the interface extends into the PbS QD layer.

AB - Time-resolved laser-pump X-ray-photoemission-probe spectroscopy of a ZnO (101¯0) substrate with and without PbS quantum dots (QDs) chemically linked to the surface is performed, using laser photon energies resonant with and below the band gap energy of the substrate (λ = 372 and 640 nm, hν = 3.33 and 1.94 eV). Charge injection from the photoexcited QDs to ZnO is demonstrated through the change in the surface photovoltage of the ZnO substrate observed when the heterojunction is illuminated with 1.94 eV radiation. The measured carrier dynamics are limited by the persistent photoconductivity of ZnO, giving dark carrier lifetimes of the order of 200 μs in a depletion layer at the interface. The chemical specificity of soft X-rays is used to separately measure the charge dynamics in the quantum dots and the substrate, yielding evidence that the depletion region at the interface extends into the PbS QD layer.

U2 - 10.1063/1.4943077

DO - 10.1063/1.4943077

M3 - Article

AN - SCOPUS:84959513333

SN - 0003-6951

VL - 108

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 9

M1 - 091603

ER -

Charge dynamics at heterojunctions for PbS/ZnO colloidal quantum dot solar cells probed with time-resolved surface photovoltage spectroscopy

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