Volume 222, 2020

Silicon photosensitisation using molecular layers

Abstract

Silicon photosensitisation via energy transfer from molecular dye layers is a promising area of research for excitonic silicon photovoltaics. We present the synthesis and photophysical characterisation of vinyl and allyl terminated Si(111) surfaces decorated with perylene molecules. The functionalised silicon surfaces together with Langmuir–Blodgett (LB) films based on perylene derivatives were studied using a wide range of steady-state and time resolved spectroscopic techniques. Fluorescence lifetime quenching experiments performed on the perylene modified monolayers revealed energy transfer efficiencies to silicon of up to 90 per cent. We present a simple model to account for the near field interaction of a dipole emitter with the silicon surface and distinguish between the ‘true’ FRET region (<5 nm) and a different process, photon tunnelling, occurring for distances between 10–50 nm. The requirements for a future ultra-thin crystalline solar cell paradigm include efficient surface passivation and keeping a close distance between the emitter dipole and the surface. These are discussed in the context of existing limitations and questions raised about the finer details of the emitter–silicon interaction.

Graphical abstract: Silicon photosensitisation using molecular layers

Associated articles

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Article information

Article type
Paper
Submitted
29 Sep 2019
Accepted
11 Nov 2019
First published
12 Nov 2019
This article is Open Access
Creative Commons BY license

Faraday Discuss., 2020,222, 405-423

Silicon photosensitisation using molecular layers

L. Danos, N. R. Halcovitch, B. Wood, H. Banks, M. P. Coogan, N. Alderman, L. Fang, B. Dzurnak and T. Markvart, Faraday Discuss., 2020, 222, 405 DOI: 10.1039/C9FD00095J

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