Difference between revisions of "Ubiquitous PV"
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| − | Ubiquitous PV here refers to easily-applied, durable and very cheap photovoltaic surface coatings, using inexpensive raw materials and manufacture processes (perhaps based on nanocrystalline {{wp|Dye-sensitized_solar_cells|dye-sensitised solar cell}} technology), that could cover the majority of roofs, pavements and roads. This vast distributed energy gathering area has the possibility of providing a significant percentage of the energy requirement of modern society. | + | Ubiquitous PV here refers to easily-applied, durable and very cheap photovoltaic surface coatings, using inexpensive raw materials and manufacture processes (perhaps based on nanocrystalline {{wp|Dye-sensitized_solar_cells|dye-sensitised solar cell}} technology), that could cover the majority of roofs, pavements and roads. This vast distributed energy gathering area has the possibility of providing a significant percentage of the energy requirement of modern society. |
Conveniently it would mean that the greater the population concentration in any particular area, the greater the energy generating surface would be. | Conveniently it would mean that the greater the population concentration in any particular area, the greater the energy generating surface would be. | ||
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| + | {{wp|Polymer_solar_cell|Polymer solar cells}} could ultimately be woven into clothing, allowing mobile power for phones, personal computers etc. | ||
Photovoltaic cells have already been integrated with glass windows, such as SunTech's PhotoVol Glass system. | Photovoltaic cells have already been integrated with glass windows, such as SunTech's PhotoVol Glass system. | ||
Revision as of 17:32, 4 July 2010
Ubiquitous PV here refers to easily-applied, durable and very cheap photovoltaic surface coatings, using inexpensive raw materials and manufacture processes (perhaps based on nanocrystalline dye-sensitised solar cell 
technology), that could cover the majority of roofs, pavements and roads. This vast distributed energy gathering area has the possibility of providing a significant percentage of the energy requirement of modern society.
Conveniently it would mean that the greater the population concentration in any particular area, the greater the energy generating surface would be.
Polymer solar cells could ultimately be woven into clothing, allowing mobile power for phones, personal computers etc.
Photovoltaic cells have already been integrated with glass windows, such as SunTech's PhotoVol Glass system.
