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Hierarchical zinc oxide pomegranate and hollow sphere structures as efficient photoanodes for dye-sensitized solar cells

The hierarchically structured ZnO pomegranates as well as hollow spheres have been prepared in a solvothermal assisted process using ethylene glycol as a solvent and l-ascorbic acid and oxalic acid as additives/surfactants respectively, without using water as solvent. Depending on the surfactant use...

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Published in:Microporous and mesoporous materials 2016-05, Vol.226, p.201-208
Main Authors: Chauhan, Ratna, Shinde, Manish, Kumar, Abhinav, Gosavi, Suresh, Amalnerkar, Dinesh P.
Format: Article
Language:English
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Summary:The hierarchically structured ZnO pomegranates as well as hollow spheres have been prepared in a solvothermal assisted process using ethylene glycol as a solvent and l-ascorbic acid and oxalic acid as additives/surfactants respectively, without using water as solvent. Depending on the surfactant used, the morphology of the ZnO hierarchical nanostructures has changed dramatically which can be attributed to the reaction kinetics affected by presence of generated solvents, evolved gases. The structural analysis reveals the formation of wurtzite hexagonal crystalline structure. Electron microscopy images show the pomegranate and hollow sphere like morphology. The secondary nanoscale growth has been observed on the shell of pomegranate like ZnO microspheres. The synthesized ZnO hierarchial nanostructures have been used as photoanode in dye sensitized solar cells (DSSCs) which showed enhanced light harvesting properties than the commercial ZnO. Pomegranate like structure has displayed better light conversion efficiency (4.35%) as compared to ZnO hollow sphere structures (3.28%). This enhancement in photocurrent and power conversion efficiency could be due to interesting pomegranate like architecture of ZnO coupled with secondary 1-dimensional growth which provided more specific surface area for dye loading. Novel pomegranate like morphology comprising secondary 1-D growth on upper surface coupled with nanoballs in inner surface making an impetus for enhancing specific surface area than the hollow sphere for additional photon absorption as well as enhanced cell efficiency. [Display omitted] •Pomegranate and hollow sphere morphology of ZnO prepared using L-Ascorbic and oxalic acid.•Pomegranate architecture coupled with secondary 1-D growth provided more surface area for dye loading.•Pomegranate structure displayed better light conversion efficiency compared to hollow sphere.
ISSN:1387-1811
1873-3093
DOI:10.1016/j.micromeso.2015.11.054