Difference between revisions of "Low temperature sintered TiO2 porous layer"
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| − | == | + | ==Abstract== |
| − | Conventionally it requires 450 to 500 celsius to sinter the TiO2 porous layer which functioning as the photo-electrode in dye sensitized solar cell, it eliminates the application of flexible DSSC manufactured in textile or plastic substrates. There are two possible solutions to make the TiO2 porous layer in flexible DSSC device: 1. sintering the TiO2 porous layer on textile or plastic film with temperature lower than 150 celsius or in room temperature. 2. sintering the TiO2 layer on high heat resistive textile substrates. | + | Conventionally it requires 450 to 500 celsius to sinter the TiO2 porous layer which functioning as the photo-electrode in dye sensitized solar cell, it eliminates the application of flexible DSSC manufactured in textile or plastic substrates. There are two possible solutions to make the TiO2 porous layer in flexible DSSC device: 1. sintering the TiO2 porous layer on textile or plastic film with temperature lower than 150 celsius or in room temperature. 2. sintering the TiO2 layer on high heat resistive textile substrates. This page documented the tries base on the first option. |
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| + | ==References== | ||
| + | #NIKLAS D.J. HANSEN. (2014). MICROWAVE ASSISTED SYNTHESIS OF TITANIUM DIOXIDE ELECTRODES FOR USE IN POLYMER DSSC MICROWAVE ASSISTED SYNTHESIS OF TITANIUM DIOXIDE ELECTRODES FOR USE IN POLYMER DSSC | ||
| + | #M. Fathy, H. Hassan, H. Hafez, M. Soliman, F. Abulfotuh, Abd El Hady B. Kashyout. (2022) Simple and Fast Microwave-Assisted Synthesis Methods of Nanocrystalline TiO2 and rGO Materials for Low-Cost Metal-Free DSSC Applications. https://doi.org/10.1021/acsomega.2c01455. | ||
| + | #Edward F. van Amelrooij, Henk Schut, Werner Egger, Marcel Dickmann, Christoph Hugenschmidt, Lloyd Mallée, Ulf Hanefeld, Duncan G. G. McMillan,* and Stephan W. H. Eijt*. (2020). Characterization of Enzymatically Synthesized Titania Thin Films Using Positron Annihilation Spectroscopy Reveals Low-Cost Approach for Organic/Inorganic Photovoltaic Cells. DOI: 10.1002/adsu.202000003. | ||
| + | # | ||
Revision as of 18:14, 28 September 2023
Abstract
Conventionally it requires 450 to 500 celsius to sinter the TiO2 porous layer which functioning as the photo-electrode in dye sensitized solar cell, it eliminates the application of flexible DSSC manufactured in textile or plastic substrates. There are two possible solutions to make the TiO2 porous layer in flexible DSSC device: 1. sintering the TiO2 porous layer on textile or plastic film with temperature lower than 150 celsius or in room temperature. 2. sintering the TiO2 layer on high heat resistive textile substrates. This page documented the tries base on the first option.
References
- NIKLAS D.J. HANSEN. (2014). MICROWAVE ASSISTED SYNTHESIS OF TITANIUM DIOXIDE ELECTRODES FOR USE IN POLYMER DSSC MICROWAVE ASSISTED SYNTHESIS OF TITANIUM DIOXIDE ELECTRODES FOR USE IN POLYMER DSSC
- M. Fathy, H. Hassan, H. Hafez, M. Soliman, F. Abulfotuh, Abd El Hady B. Kashyout. (2022) Simple and Fast Microwave-Assisted Synthesis Methods of Nanocrystalline TiO2 and rGO Materials for Low-Cost Metal-Free DSSC Applications. https://doi.org/10.1021/acsomega.2c01455.
- Edward F. van Amelrooij, Henk Schut, Werner Egger, Marcel Dickmann, Christoph Hugenschmidt, Lloyd Mallée, Ulf Hanefeld, Duncan G. G. McMillan,* and Stephan W. H. Eijt*. (2020). Characterization of Enzymatically Synthesized Titania Thin Films Using Positron Annihilation Spectroscopy Reveals Low-Cost Approach for Organic/Inorganic Photovoltaic Cells. DOI: 10.1002/adsu.202000003.
