The Experts below are selected from a list of 258 Experts worldwide ranked by ideXlab platform
Giampiero Ruani - One of the best experts on this subject based on the ideXlab platform.
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2005Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films are prepared, and used in fabricating solid-state dye sensitised organic-inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2004Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:Abstract A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films is prepared, and used in fabricating solid-state dye sensitised organic–inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films.
Prakash R. Somani - One of the best experts on this subject based on the ideXlab platform.
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2005Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films are prepared, and used in fabricating solid-state dye sensitised organic-inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2004Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:Abstract A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films is prepared, and used in fabricating solid-state dye sensitised organic–inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films.
Petr Nozar - One of the best experts on this subject based on the ideXlab platform.
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2005Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films are prepared, and used in fabricating solid-state dye sensitised organic-inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2004Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:Abstract A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films is prepared, and used in fabricating solid-state dye sensitised organic–inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films.
Dimitrios Palles - One of the best experts on this subject based on the ideXlab platform.
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2005Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films are prepared, and used in fabricating solid-state dye sensitised organic-inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2004Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:Abstract A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films is prepared, and used in fabricating solid-state dye sensitised organic–inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films.
Mauro Murgia - One of the best experts on this subject based on the ideXlab platform.
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2005Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films are prepared, and used in fabricating solid-state dye sensitised organic-inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films
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Solid-state dye PV cells using inverse opal TiO2 films
Solar Energy Materials and Solar Cells, 2004Co-Authors: Prakash R. Somani, Chiara Dionigi, Mauro Murgia, Dimitrios Palles, Petr Nozar, Giampiero RuaniAbstract:Abstract A novel approach to increase the efficiency of solid-state Gratzel solar cells is presented. Large surface, titania inverse opal films is prepared, and used in fabricating solid-state dye sensitised organic–inorganic hybrid Gratzel solar cells. The ordered interconnected cavities forming the microporous structure allow an easy and desired penetration of both the dye and the solid-state hole conductor material favouring the intimate contact of both these elements through the Whole Depth of the titania. These cells show much higher efficiency as compared to solid-state Gratzel cells prepared, in twin procedures, by conventional method using nanocrystalline TiO2 films.
