Commercialisation Plan for Nano Tube Solar Panels Technology. It is Research Paper

Commercialisation Plan for Nano Tube solar Panels Technology. It is one of the assignments for Innovation Management Topic - Research Paper ExampleMany devices suck in been real for this from the ancient times itself one of them is the solar panels, which is used to capture and convert solar heftiness into caloric energy. But the key challenge in solar panel technology is the identification of efficient and approach effective method to convert, store and use solar energy. This has encouraged the development of Nano Tube Solar Panels. It progress solution to energy requirements, that too in a cost effective manner with a great efficiency. Earlier silicon panels were used which used highly doped p-n junction in among cardinal pure silicon crystals to form the panel. This panel was so difficult to make as it requires semi conducting somatic which is highly doped with phosphorous or arsenic to give its character and it should be grown between two pure silicon crystals at high t emperature. This manufacturing process is very costly as well up involves many risks. Also this type of panels has very high payback time and very short lifetime span There is a wide need for a change in the source of energy for popular and private requirements. Government announces some energy conservation plans, of which one of them was non conventional energy sources interchangeable recovering energy like solar energy should be used for lighting at public places like street lights traffic etc (Jain 2009, p. 254). ... Carbon nano tubes are intrinsic p-type semi conducting material, usually make of atomic number 22 dioxide nano particles or rolled up sheet of graphene. Unlike in earlier version, in which sunlight is converted into electrons and utilized as electric current, here sunlight is made into nano particles, which can increase the efficiency by a larger means. According to Nanowelded Carbon Nanotubes From Field-Effect Transistors to Solar Microcells Chongjin Chen, Yafe i Zhang nanotubes are prepared by depositing organic films containing SWNTs on to a glass substrates coated with indium-tin oxide (ITO).As a final mix a sandwich configuration is made as Aluminum electrodes were thermally evaporated under vacuum to form a sandwich configuration. Because of the interaction of the ampere-second nanotubes with the polymer poly (3-octylthiophene) (P3OT), excitons generated by the light in the polymer allow charge separation of the photogenerated excitons in the polymer and efficient electron extend to the electrode through the nanotubes. The electrons travel through the entire nanotubes and then hop or tunnel to the next nanotubes. As a result of which electron mobility increases and balances the charge carrier transport to the electrodes. Here the composites conductivity is also increased by a factor of 10. This process can increase the photovoltaic performance, by increasing the photocurrent by more than two orders of magnitude and doubling the open circuit voltage. Scientists now have a much better understanding of the complex interplay between the electronic and physical interaction polymer, and the fullerene divisor can assist in the design of the next generation of optimized organic solar cells (Lau