Role of Semiconducting and Metallic Tubes in P3HT/Carbon-Nanotube Photovoltaic Heterojunctions: Density Functional Theory Calculations
- 22 February 2008
- journal article
- letter
- Published by American Chemical Society (ACS) in Nano Letters
- Vol. 8 (3), 908-912
- https://doi.org/10.1021/nl0732777
Abstract
A density functional theory approach is employed to investigate poly-3-hexylthiophene (P3HT) interfaced with both a semiconducting and metallic carbon nanotube (CNT). For the semiconducting CNT, a type-II heterojunction can form, making such an interface desirable as a photovoltaic heterojunction. In contrast, with the metallic CNT, substantial charge redistribution occurs and the interaction is strongly enhanced. The built-in-potential is, however, quite small, and P3HT becomes electrostatically more attractive for electrons. These observations together indicate that, in a photovoltaic heterojunction based on a mixed CNT distribution, the majority of interfaces are with metallic CNTs and inefficient.Keywords
This publication has 25 references indexed in Scilit:
- Insights on Interfacial Charge Transfer Across P3HT/Fullerene Photovoltaic Heterojunction from Ab Initio CalculationsNano Letters, 2007
- Organic and nano-structured composite photovoltaics: An overviewJournal of Materials Research, 2005
- Thermally Stable, Efficient Polymer Solar Cells with Nanoscale Control of the Interpenetrating Network MorphologyAdvanced Functional Materials, 2005
- Ordered Organic–Inorganic Bulk Heterojunction Photovoltaic CellsMRS Bulletin, 2005
- The Limits to Organic Photovoltaic Cell EfficiencyMRS Bulletin, 2005
- Conjugated Polymer Photovoltaic CellsChemistry of Materials, 2004
- Effects of Postproduction Treatment on Plastic Solar CellsAdvanced Functional Materials, 2003
- Hybrid Nanorod-Polymer Solar CellsScience, 2002
- Plastic Solar CellsAdvanced Functional Materials, 2001
- Photoinduced Electron Transfer from a Conducting Polymer to BuckminsterfullereneScience, 1992