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DSSC anchoring groups: a surface dependent decision

DSSC anchoring groups: a surface dependent decision
DSSC anchoring groups: a surface dependent decision
Electrodes in dye sensitised solar cells are typically nanocrystalline anatase TiO2 with a majority (1 0 1) surface exposed. Generally the sensitising dye employs a carboxylic anchoring moiety through which it adheres to the TiO2 surface. Recent interest in exploiting the properties of differing TiO2 electrode morphologies, such as rutile nanorods exposing the (1 1 0) surface and anatase electrodes with high percentages of the (0 0 1) surface exposed, begs the question of whether this anchoring strategy is best, irrespective of the majority surface exposed. Here we address this question by presenting density functional theory calculations contrasting the binding properties of two promising anchoring groups, phosphonic acid and boronic acid, to that of carboxylic acid. Anchor-electrode interactions are studied for the prototypical anatase (1 0 1) surface, along with the anatase (0 0 1) and rutile (1 1 0) surfaces. Finally the effect of using these alternative anchoring groups to bind a typical coumarin dye (NKX-2311) to these TiO2 substrates is examined. Significant differences in the binding properties are found depending on both the anchor and surface, illustrating that the choice of anchor is necessarily dependent upon the surface exposed in the electrode. In particular the boronic acid is found to show the potential to be an excellent anchor choice for electrodes exposing the anatase (0 0 1) surface.
0953-8984
O'Rourke, C.
2273b21c-9ba3-4ca4-952f-6676f3fe8bff
Bowler, D.R.
db66fb34-efce-43ed-bfeb-74de308a682c
O'Rourke, C.
2273b21c-9ba3-4ca4-952f-6676f3fe8bff
Bowler, D.R.
db66fb34-efce-43ed-bfeb-74de308a682c

O'Rourke, C. and Bowler, D.R. (2014) DSSC anchoring groups: a surface dependent decision. Journal of Physics: Condensed Matter, 26. (doi:10.1088/0953-8984/26/19/195302).

Record type: Article

Abstract

Electrodes in dye sensitised solar cells are typically nanocrystalline anatase TiO2 with a majority (1 0 1) surface exposed. Generally the sensitising dye employs a carboxylic anchoring moiety through which it adheres to the TiO2 surface. Recent interest in exploiting the properties of differing TiO2 electrode morphologies, such as rutile nanorods exposing the (1 1 0) surface and anatase electrodes with high percentages of the (0 0 1) surface exposed, begs the question of whether this anchoring strategy is best, irrespective of the majority surface exposed. Here we address this question by presenting density functional theory calculations contrasting the binding properties of two promising anchoring groups, phosphonic acid and boronic acid, to that of carboxylic acid. Anchor-electrode interactions are studied for the prototypical anatase (1 0 1) surface, along with the anatase (0 0 1) and rutile (1 1 0) surfaces. Finally the effect of using these alternative anchoring groups to bind a typical coumarin dye (NKX-2311) to these TiO2 substrates is examined. Significant differences in the binding properties are found depending on both the anchor and surface, illustrating that the choice of anchor is necessarily dependent upon the surface exposed in the electrode. In particular the boronic acid is found to show the potential to be an excellent anchor choice for electrodes exposing the anatase (0 0 1) surface.

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Published date: 24 April 2014

Identifiers

Local EPrints ID: 488536
URI: http://eprints.soton.ac.uk/id/eprint/488536
ISSN: 0953-8984
PURE UUID: 24e9cc15-a6bd-4fa0-af05-83ad7f202fe5

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Date deposited: 26 Mar 2024 17:46
Last modified: 26 Mar 2024 17:46

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Contributors

Author: C. O'Rourke
Author: D.R. Bowler

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