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Protonated Carboxyl Anchor for Stable Adsorption of Ru N749 Dye (Black Dye) on a TiO2 Anatase (101) Surface

Protonated Carboxyl Anchor for Stable Adsorption of Ru N749 Dye (Black Dye) on a TiO2 Anatase (101) Surface
Protonated Carboxyl Anchor for Stable Adsorption of Ru N749 Dye (Black Dye) on a TiO2 Anatase (101) Surface
We have investigated the adsorption stability of ruthenium N749 dye [black dye (BD)], a highly efficient dye for dye-sensitized solar cells (DSCs), through protonated and deprotonated carboxyl group anchors on a TiO2 anatase (101) surface by using first-principles calculations. Geometry optimizations of the surface system with a supercell and the UV–visible spectrum calculation of the optimized dye structure were carried out. Among the configurations with one and two anchors, the BD adsorption anchored with one protonated carboxyl group was found to be the most stable, in contrast to most previous reports. Hydrogen bonding between the proton retained in BD and the surface oxygen is responsible for the stability of the protonated anchor. We confirmed that the calculated UV–visible spectrum of the most stable dye structure shows the best consistency with the experimental data. It is also demonstrated that the electronic density of states largely depends on the proton position. This novel aspect of adsorption via a protonated carboxyl anchor gives a new perspective for interfacial electronic processes of DSCs.
1948-7185
472–477
Sodeyama, Keitaro
755c43b7-c787-418e-885b-b6fbbdab5f24
Sumita, Masato
66d35e6c-d9ea-47eb-8f50-9d73dfce4678
O'Rourke, Conn
2273b21c-9ba3-4ca4-952f-6676f3fe8bff
Terranova, Umberto
05fc1f5f-f32b-4596-b812-b70701369480
Islam, Ashraful
a2875aaa-df94-4c54-9a6f-1e4686b310b2
Han, Liyuan
8c763711-f8ab-40e0-b094-7211a2f57fc4
Bowler, David R.
db66fb34-efce-43ed-bfeb-74de308a682c
Tateyama, Yoshitaka
c7f2cd39-78c9-4db0-8d0e-c1b88a22938c
Sodeyama, Keitaro
755c43b7-c787-418e-885b-b6fbbdab5f24
Sumita, Masato
66d35e6c-d9ea-47eb-8f50-9d73dfce4678
O'Rourke, Conn
2273b21c-9ba3-4ca4-952f-6676f3fe8bff
Terranova, Umberto
05fc1f5f-f32b-4596-b812-b70701369480
Islam, Ashraful
a2875aaa-df94-4c54-9a6f-1e4686b310b2
Han, Liyuan
8c763711-f8ab-40e0-b094-7211a2f57fc4
Bowler, David R.
db66fb34-efce-43ed-bfeb-74de308a682c
Tateyama, Yoshitaka
c7f2cd39-78c9-4db0-8d0e-c1b88a22938c

Sodeyama, Keitaro, Sumita, Masato, O'Rourke, Conn, Terranova, Umberto, Islam, Ashraful, Han, Liyuan, Bowler, David R. and Tateyama, Yoshitaka (2012) Protonated Carboxyl Anchor for Stable Adsorption of Ru N749 Dye (Black Dye) on a TiO2 Anatase (101) Surface. The Journal of Physical Chemistry Letters, 3 (4), 472–477. (doi:10.1021/jz201583n).

Record type: Article

Abstract

We have investigated the adsorption stability of ruthenium N749 dye [black dye (BD)], a highly efficient dye for dye-sensitized solar cells (DSCs), through protonated and deprotonated carboxyl group anchors on a TiO2 anatase (101) surface by using first-principles calculations. Geometry optimizations of the surface system with a supercell and the UV–visible spectrum calculation of the optimized dye structure were carried out. Among the configurations with one and two anchors, the BD adsorption anchored with one protonated carboxyl group was found to be the most stable, in contrast to most previous reports. Hydrogen bonding between the proton retained in BD and the surface oxygen is responsible for the stability of the protonated anchor. We confirmed that the calculated UV–visible spectrum of the most stable dye structure shows the best consistency with the experimental data. It is also demonstrated that the electronic density of states largely depends on the proton position. This novel aspect of adsorption via a protonated carboxyl anchor gives a new perspective for interfacial electronic processes of DSCs.

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Published date: 16 February 2012
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Identifiers

Local EPrints ID: 488547
URI: http://eprints.soton.ac.uk/id/eprint/488547
DOI: doi:10.1021/jz201583n
ISSN: 1948-7185
PURE UUID: a052706d-ac11-4215-a580-d47ca181d370

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Date deposited: 26 Mar 2024 17:59
Last modified: 26 Mar 2024 17:59

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Contributors

Author: Keitaro Sodeyama
Author: Masato Sumita
Author: Conn O'Rourke
Author: Umberto Terranova
Author: Ashraful Islam
Author: Liyuan Han
Author: David R. Bowler
Author: Yoshitaka Tateyama

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