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Literature DB >> 28368109

Chemical and Physical Reduction of High Valence Ni States in Mesoporous NiO Film for Solar Cell Application.

Luca D'Amario¹, Roger Jiang¹, Ute B Cappel², Elizabeth A Gibson³, Gerrit Boschloo^1,4, Håkan Rensmo², Licheng Sun^4,5, Leif Hammarström¹, Haining Tian^1,4.

Abstract

The most common material for dye-sensitized photocathodes is mesoporous NiO. We transformed the usual brownish NiO to be more transparent by reducing high valence Ni impurities. Two pretreatment methods have been used: chemical reduction by NaBH4 and thermal reduction by heating. The power conversion efficiency of the cell was increased by 33% through chemical treatment, and an increase in open-circuit voltage from 105 to 225 mV was obtained upon heat treatment. By optical spectroelectrochemistry, we could identify two species with characteristically different spectra assigned to Ni3+ and Ni4+. We suggest that the reduction of surface Ni3+ and Ni4+ to Ni2+ decreases the recombination reaction between holes on the NiO surface with the electrolyte. It also keeps the dye firmly on the surface, building a barrier for electrolyte recombination. This causes an increase in open-circuit photovoltage for the treated film.

Entities: Chemical

Keywords: characterization; dye-sensitized solar cell; hole UV−vis spectrum; p-type; photovoltage; recombination

Year: 2017 PMID： 28368109 DOI： 10.1021/acsami.7b01532

Source DB: PubMed Journal: ACS Appl Mater Interfaces ISSN： 1944-8244 Impact factor: 9.229

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Cited

12 in total

Review 1. Dye-sensitized solar cells strike back.

Authors: Ana Belén Muñoz-García; Iacopo Benesperi; Gerrit Boschloo; Javier J Concepcion; Jared H Delcamp; Elizabeth A Gibson; Gerald J Meyer; Michele Pavone; Henrik Pettersson; Anders Hagfeldt; Marina Freitag
Journal: Chem Soc Rev Date: 2021-11-15 Impact factor: 54.564

Chemical and Physical Reduction of High Valence Ni States in Mesoporous NiO Film for Solar Cell Application.

Review 1. Dye-sensitized solar cells strike back.

2. Dual Role of Surface Hydroxyl Groups in the Photodynamics and Performance of NiO-Based Photocathodes.

3. Semiconductor quantum dot-sensitized rainbow photocathode for effective photoelectrochemical hydrogen generation.

4. Overcoming the Limitations of Sputtered Nickel Oxide for High-Efficiency and Large-Area Perovskite Solar Cells.

5. Unveiling hole trapping and surface dynamics of NiO nanoparticles.

6. Insights into the mechanism and aging of a noble-metal free H₂-evolving dye-sensitized photocathode.

7. Photoelectrocatalytic H₂ evolution from integrated photocatalysts adsorbed on NiO.

Review 8. Progress, highlights and perspectives on NiO in perovskite photovoltaics.

9. Photoredox Catalysis Using Heterogenized Iridium Complexes*.

10. Inverse Opal CuCrO₂ Photocathodes for H₂ Production Using Organic Dyes and a Molecular Ni Catalyst.