Origin of the Open Circuit Voltage of Plastic Solar Cells

Christoph J. Brabec; Antonio Cravino; D Meißner; Niyazi Serdar Sariçiftçi; Thomas Fromherz; Minze T. Rispens; Luis Sánchez; Jan C. Hummelen

doi:10.1002/1616-3028(200110)11:5<374::aid-adfm374>3.0.co;2-w

Origin of the Open Circuit Voltage of Plastic Solar Cells

Christoph J. Brabec(Johannes Kepler University of Linz), Antonio Cravino(Johannes Kepler University of Linz), D Meißner(Johannes Kepler University of Linz), Niyazi Serdar Sariçiftçi(Johannes Kepler University of Linz), Thomas Fromherz(Johannes Kepler University of Linz), Minze T. Rispens(University of Groningen), Luis Sánchez(University of Groningen), Jan C. Hummelen(University of Groningen)

Advanced Functional Materials

October 1, 2001

10.1002/1616-3028(200110)11:5<374::aid-adfm374>3.0.co;2-w

Cited by 1,796Open Access

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Abstract

A series of highly soluble fullerene derivatives with varying acceptor strengths (i.e., first reduction potentials) was synthesized and used as electron acceptors in plastic solar cells. These fullerene derivatives, methanofullerene [6,6]-phenyl C61-butyric acid methyl ester (PCBM), a new azafulleroid, and a ketolactam quasifullerene, show a variation of almost 200 mV in their first reduction potential. The open circuit voltage of the corresponding devices was found to correlate directly with the acceptor strength of the fullerenes, whereas it was rather insensitive to variations of the work function of the negative electrode. These observations are discussed within the concept of Fermi level pinning between fullerenes and metals via surface charges.

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