Unraveling the Function of an MgO Interlayer in Both Electrolyte and Solid-State SnO2 Based Dye-Sensitized Solar Cells
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- 作者:Pablo Docampo ; Priti Tiwana ; Nobuya Sakai ; Hidetoshi Miura ; Laura Herz ; Takurou Murakami ; Henry J. Snaith
- 刊名:The Journal of Physical Chemistry C
- 出版年:2012
- 出版时间:November 1, 2012
- 年:2012
- 卷:116
- 期:43
- 页码:22840-22846
- 全文大小:344K
- 年卷期:v.116,no.43(November 1, 2012)
- ISSN:1932-7455
文摘
The coating of n-type mesoporous metal oxides with nanometer thick dielectric shells is a route that has proven to be successful at enhancing the efficiency of some families of dye-sensitized solar cells. The primary intention is to introduce a 鈥渟urface passivation layer鈥?to inhibit recombination between photoinduced electrons and holes across the dye-sensitized interface. However, the precise function of these dielectric interlayers is often ambiguous. Here, the role of a thin MgO interlayer conformally deposited over mesoporous SnO2 in liquid electrolyte and solid-state dye-sensitized solar cells is investigated. For both families of devices the open-circuit voltage is increased by over 200 mV; however, the short-circuit photocurrent is increased for the solid-state cells, but reduced for the electrolyte based devices. Through electronic and spectroscopic characterization we deduce that there are four distinct influences of the MgO interlayer: It increases dye-loading, slows down recombination, slows down photoinduced electron transfer, and results in a greater than 200 mV shift in the conduction band edge, with respect to the electrolyte redox potential. The compilation of these four factors have differing effects and magnitudes in the solid-state and electrolyte DSCs but quantitatively account for the difference in device performances observed for both systems with and without the MgO shells. To the best of our knowledge, this is the most comprehensive account of the role of dielectric shells in dye-sensitized solar cells and will enable much better interfacial design of photoelectrodes for DSCs.