Mesoporous TiO 2 nanowires as bi-functional materials for dye-sensitized solar cells

Sangwook Lee; Gill Sang Han; Ji Hae Lee; Jung Kun Lee; Hyun Suk Jung

doi:10.1016/j.electacta.2012.04.008

Mesoporous TiO ₂ nanowires as bi-functional materials for dye-sensitized solar cells

Sangwook Lee, Gill Sang Han, Ji Hae Lee, Jung Kun Lee, Hyun Suk Jung

Department of Advanced Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

12 Scopus citations

Abstract

A bimodal structured TiO ₂ nanowire (NW) was synthesized via metal glycolate-mediated method. Each large NW was comprised of a few nanometers-sized anatase particles, which led to a high specific surface area, 50.4 m ² g ^-1. When the bimodal TiO ₂ NWs were coated onto a spherical nanoparticle-based active layer of the photoelectrode for a dye-sensitized solar cell, the reflectance of the photoelectrode increased by 4-times, compared to a bare active layer. The TiO ₂ NWs increased quantum efficiency of the dye-sensitized solar cell, from 400 to 800 nm wavelengths, which was attributed to both the light-scattering and charge generating effects due to the capability of reflecting incident light and adsorbing large amount of dye molecules.

Original language	English
Pages (from-to)	83-86
Number of pages	4
Journal	Electrochimica Acta
Volume	74
DOIs	https://doi.org/10.1016/j.electacta.2012.04.008
State	Published - 15 Jul 2012

Keywords

Bimodal structure
Dye-sensitized solar cell
Nanowire
Scattering
TiO

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1016/j.electacta.2012.04.008

Cite this

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title = "Mesoporous TiO 2 nanowires as bi-functional materials for dye-sensitized solar cells",

abstract = "A bimodal structured TiO 2 nanowire (NW) was synthesized via metal glycolate-mediated method. Each large NW was comprised of a few nanometers-sized anatase particles, which led to a high specific surface area, 50.4 m 2 g -1. When the bimodal TiO 2 NWs were coated onto a spherical nanoparticle-based active layer of the photoelectrode for a dye-sensitized solar cell, the reflectance of the photoelectrode increased by 4-times, compared to a bare active layer. The TiO 2 NWs increased quantum efficiency of the dye-sensitized solar cell, from 400 to 800 nm wavelengths, which was attributed to both the light-scattering and charge generating effects due to the capability of reflecting incident light and adsorbing large amount of dye molecules.",

keywords = "Bimodal structure, Dye-sensitized solar cell, Nanowire, Scattering, TiO",

author = "Sangwook Lee and Han, \{Gill Sang\} and Lee, \{Ji Hae\} and Lee, \{Jung Kun\} and Jung, \{Hyun Suk\}",

year = "2012",

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doi = "10.1016/j.electacta.2012.04.008",

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journal = "Electrochimica Acta",

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T1 - Mesoporous TiO 2 nanowires as bi-functional materials for dye-sensitized solar cells

AU - Lee, Sangwook

AU - Han, Gill Sang

AU - Lee, Ji Hae

AU - Lee, Jung Kun

AU - Jung, Hyun Suk

PY - 2012/7/15

Y1 - 2012/7/15

N2 - A bimodal structured TiO 2 nanowire (NW) was synthesized via metal glycolate-mediated method. Each large NW was comprised of a few nanometers-sized anatase particles, which led to a high specific surface area, 50.4 m 2 g -1. When the bimodal TiO 2 NWs were coated onto a spherical nanoparticle-based active layer of the photoelectrode for a dye-sensitized solar cell, the reflectance of the photoelectrode increased by 4-times, compared to a bare active layer. The TiO 2 NWs increased quantum efficiency of the dye-sensitized solar cell, from 400 to 800 nm wavelengths, which was attributed to both the light-scattering and charge generating effects due to the capability of reflecting incident light and adsorbing large amount of dye molecules.

AB - A bimodal structured TiO 2 nanowire (NW) was synthesized via metal glycolate-mediated method. Each large NW was comprised of a few nanometers-sized anatase particles, which led to a high specific surface area, 50.4 m 2 g -1. When the bimodal TiO 2 NWs were coated onto a spherical nanoparticle-based active layer of the photoelectrode for a dye-sensitized solar cell, the reflectance of the photoelectrode increased by 4-times, compared to a bare active layer. The TiO 2 NWs increased quantum efficiency of the dye-sensitized solar cell, from 400 to 800 nm wavelengths, which was attributed to both the light-scattering and charge generating effects due to the capability of reflecting incident light and adsorbing large amount of dye molecules.

KW - Bimodal structure

KW - Dye-sensitized solar cell

KW - Nanowire

KW - Scattering

KW - TiO

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