Silicon nanowires for hybrid solar cells
How can solar power be directly utilized in a efficient way but at a low cost? In this study the feasibility of core-shell hybrid solar cells, combining silicon nanowires and PEDOT polymer, is presented. The main advantage of such a structure is the simplicity to both the structure of silicon and the deposition of PEDOT, using efficient and low-cost methods of metal-assisted chemical etching (EMACE) and electrochemical deposition. The silicon nanowires (SiNWs) array becomes an active research subject nowadays in photovoltaic application mainly due to its good light trapping effect. It is first time, to our knowledge, that the polymer PEDOT is…
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Produktdetails
Weitere Autoren: Flory, François / Le Rouzo, Judikaël
- ISBN: 978-3-659-52628-2
- EAN: 9783659526282
- Produktnummer: 37421081
- Verlag: LAP Lambert Academic Publishing
- Sprache: Englisch
- Erscheinungsjahr: 2014
- Seitenangabe: 156 S.
- Masse: H22.0 cm x B15.0 cm x D0.9 cm 250 g
- Abbildungen: Paperback
- Gewicht: 250
Über den Autor
Mingxuan ZHU received his Ph.D in micro and nanoelectroniques from Ecole Centrale Marseille (2013), a Master's degree in solid states and electronics (2010), a Bachelor's degree in materials science and engineering (2005). His research interest is in nanomaterials and its application in photovoltaics.
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