Band gap engineered polymeric-inorganic nanocomposite catalysts: Synthesis, isothermal stability, photocatalytic activity and photovoltaic performance
Polymeric-inorganic nanocomposite catalysts were synthesized by facile one-pot chemical polymerization of pyrrole in the presence of titanium dioxide nanoparticles. The electrical, optical, photovoltaic performance of dye sensitized solar cell (DSSC) and visible light driven photocatalytic activitie...
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2017
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my.utm.809832019-07-24T00:13:45Z http://eprints.utm.my/id/eprint/80983/ Band gap engineered polymeric-inorganic nanocomposite catalysts: Synthesis, isothermal stability, photocatalytic activity and photovoltaic performance Baig, U. Gondal, M. A. Ilyas, A. M. Sanagi, M. M. QD Chemistry Polymeric-inorganic nanocomposite catalysts were synthesized by facile one-pot chemical polymerization of pyrrole in the presence of titanium dioxide nanoparticles. The electrical, optical, photovoltaic performance of dye sensitized solar cell (DSSC) and visible light driven photocatalytic activities of the nanocomposite were investigated. The prepared nanocomposite displays excellent photo-activity, attaining 100% degradation of methyl orange dye in 60 min under visible light source while 55% for pure TiO2 under similar experimental conditions. The photovoltaic performance of the polypyrrole-titanium dioxide (PPy-TiO2) nanocomposite has a 51.4% improvement with a photo-conversion efficiency of 8.07% as compared to pure TiO2 based DSSC. By comparing the physical mixture of the PPy-TiO2 nanocomposite and pristine TiO2, the enhanced activity of the PPy-TiO2 nanocomposite can be attributed to the reduced charge transfer resistance, outstanding electrical conductance of the PPy, the nano-sized structure of TiO2 and their synergetic effect. Furthermore, the PPy-TiO2 nanocomposite shows excellent electrical conductivity and isothermal stability under ambient conditions below 110 °C. Chinese Society of Metals 2017 Article PeerReviewed Baig, U. and Gondal, M. A. and Ilyas, A. M. and Sanagi, M. M. (2017) Band gap engineered polymeric-inorganic nanocomposite catalysts: Synthesis, isothermal stability, photocatalytic activity and photovoltaic performance. Journal of Materials Science and Technology, 33 (6). pp. 547-557. ISSN 1005-0302 http://dx.doi.org/10.1016/j.jmst.2016.11.031 DOI:10.1016/j.jmst.2016.11.031 |
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QD Chemistry Baig, U. Gondal, M. A. Ilyas, A. M. Sanagi, M. M. Band gap engineered polymeric-inorganic nanocomposite catalysts: Synthesis, isothermal stability, photocatalytic activity and photovoltaic performance |
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Polymeric-inorganic nanocomposite catalysts were synthesized by facile one-pot chemical polymerization of pyrrole in the presence of titanium dioxide nanoparticles. The electrical, optical, photovoltaic performance of dye sensitized solar cell (DSSC) and visible light driven photocatalytic activities of the nanocomposite were investigated. The prepared nanocomposite displays excellent photo-activity, attaining 100% degradation of methyl orange dye in 60 min under visible light source while 55% for pure TiO2 under similar experimental conditions. The photovoltaic performance of the polypyrrole-titanium dioxide (PPy-TiO2) nanocomposite has a 51.4% improvement with a photo-conversion efficiency of 8.07% as compared to pure TiO2 based DSSC. By comparing the physical mixture of the PPy-TiO2 nanocomposite and pristine TiO2, the enhanced activity of the PPy-TiO2 nanocomposite can be attributed to the reduced charge transfer resistance, outstanding electrical conductance of the PPy, the nano-sized structure of TiO2 and their synergetic effect. Furthermore, the PPy-TiO2 nanocomposite shows excellent electrical conductivity and isothermal stability under ambient conditions below 110 °C. |
| format |
Article |
| author |
Baig, U. Gondal, M. A. Ilyas, A. M. Sanagi, M. M. |
| author_facet |
Baig, U. Gondal, M. A. Ilyas, A. M. Sanagi, M. M. |
| author_sort |
Baig, U. |
| title |
Band gap engineered polymeric-inorganic nanocomposite catalysts: Synthesis, isothermal stability, photocatalytic activity and photovoltaic performance |
| title_short |
Band gap engineered polymeric-inorganic nanocomposite catalysts: Synthesis, isothermal stability, photocatalytic activity and photovoltaic performance |
| title_full |
Band gap engineered polymeric-inorganic nanocomposite catalysts: Synthesis, isothermal stability, photocatalytic activity and photovoltaic performance |
| title_fullStr |
Band gap engineered polymeric-inorganic nanocomposite catalysts: Synthesis, isothermal stability, photocatalytic activity and photovoltaic performance |
| title_full_unstemmed |
Band gap engineered polymeric-inorganic nanocomposite catalysts: Synthesis, isothermal stability, photocatalytic activity and photovoltaic performance |
| title_sort |
band gap engineered polymeric-inorganic nanocomposite catalysts: synthesis, isothermal stability, photocatalytic activity and photovoltaic performance |
| publisher |
Chinese Society of Metals |
| publishDate |
2017 |
| url |
http://eprints.utm.my/id/eprint/80983/ http://dx.doi.org/10.1016/j.jmst.2016.11.031 |
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1643658575087665152 |