1. Progress on the development of a silicon-carbon nanotube photodetector
- Author
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G.U. Pignatel, Sandro Santucci, Maurizio Passacantando, Paola Castrucci, Eugenio Nappi, A. Tinti, Antonio Valentini, Carla Aramo, F. Guarino, Roberto Battiston, V. Grossi, M. De Crescenzi, Marco Cilmo, Antonio Ambrosio, M. Ambrosio, E. Fiandrini, P. Maddalena, Manuela Scarselli, C., Aramo, A., Ambrosio, M., Ambrosio, R., Battiston, P., Castrucci, Cilmo, Marco, M., De Crescenzi, E., Fiandrini, Guarino, Fausto, V., Grossi, Maddalena, Pasqualino, E., Nappi, M., Passacantando, G., Pignatel, S., Santucci, M., Scarselli, A., Tinti, and A., Valentini
- Subjects
Nuclear and High Energy Physics ,Silicon ,photonics ,Photodetector ,chemistry.chemical_element ,Nanotechnology ,Carbon nanotube ,Chemical vapor deposition ,Multiwall carbon nanotubes ,Photocathode ,nanotubes ,law.invention ,Settore FIS/03 - Fisica della Materia ,law ,Instrumentation ,Phototransistor ,Physics ,nanotubes, photonics, detector ,detector ,business.industry ,Heterojunction ,Semiconductor ,chemistry ,Optoelectronics ,Quantum efficiency ,business - Abstract
The properties of carbon nanotubes (CNTs), the new allotropic status of carbon discovered in 1991, have been widely investigated in all possible application field. This new material in fact can be easily obtained chemically by CVD (Chemical Vapour Deposition) as a layer of nanotubes growth on a wide variety of materials. When growth on a silicon surface, CNTs create a semiconductor heterojunction with peculiar photoresponsivity properties. We studied this heterojunction with the purpose to realize a large photocathode with high quantum efficiency in a large wavelength range from UV to IR. Results obtained up to day allowed us to build a new kind of photodetector very cheap, stable and easy to manage. Recently this new device has been proposed as one of candidates for the beam monitor system of SuperB.
- Published
- 2013