Add to ORKGSolar cell "modules" are plastic strips coated with thin films of photovoltaic silicon that collect solar energy for instant conversion into electricity. Lasers divide the thin film coating into smaller cells to build up voltage. Developed by Iowa Thin Film Technologies under NASA and DOE grants, the modules are used as electrical supply for advertising displays, battery rechargers for recreational vehicles, and to power model airplanes. The company is planning other applications both in consumer goods and as a power source in underdeveloped countries
AbstractHighly flexible modules using thin 153 cm2 silicon crystalline cells and transparent fluorop...
Solar energy has steadily increased its efficiency and cost-effectiveness throughout the past three ...
Autonomous systems are pursued in automotive and signage applications due to easy installation and a...
The thin-film solar cell program at NASA GRC is developing solar cell technologies for space applica...
The unique properties of organic solar modules allow the application of PV in new fields. The bigges...
Flexible photovoltaics are covering the way to low-cost electricity. The build-up of organic, inorga...
Solar energy is the limitless and cleanest source of energy with many possible usage places. In rece...
The concept of and crystalline solar cell arrays on flexible, transparent substrates has been focuse...
An overview of the materials, processing techniques, and characterisation procedures for flexible so...
As solar energy finds its way into unexpected applications such as buildings or objects, the traditi...
Harnessing the power of the sun through photovoltaic cells is a new area of research and development...
As a technology partner with NREL, Global Solar Energy (GSE) has initiated an extensive and systemat...
In recent years, renewable energy technologies are being explored to meet the challenges of energy s...
The continuous drive to have smart flexible systems in different application areas as automotive, ho...
abstract: Highly flexible modules using thin 153 cm[superscript 2] silicon crystalline cells and tra...
AbstractHighly flexible modules using thin 153 cm2 silicon crystalline cells and transparent fluorop...
Solar energy has steadily increased its efficiency and cost-effectiveness throughout the past three ...
Autonomous systems are pursued in automotive and signage applications due to easy installation and a...
The thin-film solar cell program at NASA GRC is developing solar cell technologies for space applica...
The unique properties of organic solar modules allow the application of PV in new fields. The bigges...
Flexible photovoltaics are covering the way to low-cost electricity. The build-up of organic, inorga...
Solar energy is the limitless and cleanest source of energy with many possible usage places. In rece...
The concept of and crystalline solar cell arrays on flexible, transparent substrates has been focuse...
An overview of the materials, processing techniques, and characterisation procedures for flexible so...
As solar energy finds its way into unexpected applications such as buildings or objects, the traditi...
Harnessing the power of the sun through photovoltaic cells is a new area of research and development...
As a technology partner with NREL, Global Solar Energy (GSE) has initiated an extensive and systemat...
In recent years, renewable energy technologies are being explored to meet the challenges of energy s...
The continuous drive to have smart flexible systems in different application areas as automotive, ho...
abstract: Highly flexible modules using thin 153 cm[superscript 2] silicon crystalline cells and tra...
AbstractHighly flexible modules using thin 153 cm2 silicon crystalline cells and transparent fluorop...
Solar energy has steadily increased its efficiency and cost-effectiveness throughout the past three ...
Autonomous systems are pursued in automotive and signage applications due to easy installation and a...