Prof Henry Snaith FRS

How should you measure your excitonic solar cells?

Energy and Environmental Science 5:4 (2012) 6513-6520

Abstract:

The research field of photovoltaics is booming due to the recognised imperative to realise a long term solutions to clean and inexpensive power generation. With this rapid growth in activity, new concepts and new directions, it is becoming more and more important to be able to effectively compare technological advances made in different research groups, and between the different competing technologies. In this article it is illustrated how challenging it can be to fairly asses the efficiency of a solar cell. Specific examples of how much of an influence a range of measurement practices can have on the estimated short-circuit photocurrents and efficiencies are shown for a number of the most commonly researched excitonic solar cell concepts. In the worst case scenario, systematic overestimations by a factor of 5 can be made. For completeness, the influence of the light source, and the correct method to properly calibrate a solar simulator and estimate the spectral mismatch factor is also described. The error in calibrating the light source is actually likely to lead to a much smaller variance than the definition of the active area of the solar cell. The undeniable implication is that it is essential for excitonic solar cells to be correctly masked to define the active area, if the measured efficiency is to bear a true resemblance of the device performance. Adoption of standard protocols across the field will enable a much better comparison between literature values of efficiency and more rapid and well directed technological advancement will occur. © 2012 The Royal Society of Chemistry.

Semiconducting organic polymers as hole-transport layer in solid-state dye sensitized solar cells: Comprehensive insights from femtosecond transient spectroscopy and device optimization

Optics InfoBase Conference Papers (2012)

Authors:

RSS Kumar, G Grancini, A Petrozza, HJ Snaith, G Lanzani

Abstract:

Device optimization and ultrafast absorption spectroscopic investigations on the role of semiconducting polymer as hole-transport layer in solid-state dye sensitized solar cells suggest their dual role of dye-regeneration and light-antenna assisting in improved photoconversion-efficiencies.

A panchromatic anthracene-fused porphyrin sensitizer for dye-sensitized solar cells

RSC ADVANCES 2:17 (2012) 6846-6853

Authors:

James M Ball, Nicola KS Davis, James D Wilkinson, James Kirkpatrick, Joel Teuscher, Robert Gunning, Harry L Anderson, Henry J Snaith

The effect of selective interactions at the interface of polymer – oxide hybrid solar cells

Energy & Environmental Science Royal Society of Chemistry (RSC) 5:10 (2012) 9068-9076

Authors:

Eleonora V Canesi, Maddalena Binda, Antonio Abate, Simone Guarnera, Luca Moretti, Valerio D'Innocenzo, R Sai Santosh Kumar, Chiara Bertarelli, Agnese Abrusci, Henry Snaith, Alberto Calloni, Alberto Brambilla, Franco Ciccacci, Stefano Aghion, Fabio Moia, Rafael Ferragut, Claudio Melis, Giuliano Malloci, Alessandro Mattoni, Guglielmo Lanzani, Annamaria Petrozza

The renaissance of dye-sensitized solar cells

NATURE PHOTONICS 6:3 (2012) 162-169

Authors:

Brian E Hardin, Henry J Snaith, Michael D McGehee