Relating the open-circuit voltage to interface molecular properties of donor:acceptor bulk heterojunction solar cells

The open-circuit voltage (V₎₂) of polymer: fullerene bulk heterojunction solar cells is determined by the interfacial charge-transfer (CT) states between polymer and fullerene. Fourier-transform photocurrent spectroscopy and electroluminescence spectra of several polymer: fullerene blends are used to extract the relevant interfacial molecular parameters. An analytical expression linking these properties to V₎₂ is deduced and shown to be valid for photovoltaic devices comprising three commonly used conjugated polymers blended with the fullerene derivative 6, 6-phenyl-C61-butyric acid methyl ester (PCBM). V₎₂ is proportional to the energy of the CT states E₂ₓ. The energetic loss q between E₂ₓ and qV₎₂ vanishes when approaching 0 K. It depends linearly on T and logarithmically on illumination intensity. Furthermore q can be reduced by decreasing the electronic coupling between polymer and fullerene or by reducing the nonradiative recombination rate. For the investigated devices we find a loss q of 0. 6 eV at room temperature and under solar illumination conditions, of which 0. 25 eV is due to radiative recombination via the CT state and 0. 35 eV is due to nonradiative recombination.