top of page
< Back

Injection Efficiency in Dye-Sensitized Solar Cells within a
Two-Band Model

Author(s):

Jinhua Cai, Norifusa Satoh, Liyuan Han

Journal:

The Journal of Physical Chemistry C

Year:

2011

Volume:

115

Pages

6033-6039

DOI:

10.1021/jp1118579

Abstract:

The injection efficiency in dye-sensitized solar cells is investigated theoretically with a general two-band model, which consists of a conduction band in semiconductor anode and an energy level for the lowest unoccupied molecular orbit (LUMO) in dye molecule, Formulas for the calculation of injection efficiency are derived by using a thermodynamical statistics on the injection current at steady state. The dependence of injection efficiency on various electronic structure parameters, such as the LUMO level relative to conduction band edge, density of states, and so forth, is examined. An approximate expression is obtained for a qualitative description of injection effeciency in the dye-sensitized solar cell operated at a normal normal conditions. Our results demonstrate that the thermodynamical competition between forward transfer current (from LUMO level to conduction band) and backward transfer current (from conduction band to LUMO level) should be considered in the evaluation of injection effeciency, and the competition results in a lower injection efficiency than unity. The previous experiment results on injection effeciency, such as the weak electron density dependence (or bias dependence), the effect of LUMO delocalization, and so forth, can be well interpreted by using our formula.

bottom of page