Martyn Fisher scite author profile

Martyn Fisher

5Publications

56Citation Statements Received

14Citation Statements Given

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Affiliations

Imperial College London

Publications

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Luminescent solar concentrators with fiber geometry

Edelenbosch¹,

Fisher²,

Patrignani³

et al. 2013

Opt. Express

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The potential of a fibre luminescent solar concentrator has been explored by means of both analytical and ray-tracing techniques. Coated fibres have been found to be more efficient than homogeneously doped fibres, at low absorption. For practical fibres concentration is predicted to be linear with fibre length. A 1 m long, radius 1 mm, fibre LSC doped with Lumogen Red 305 is predicted to concentrate the AM1.5 g spectrum up to 1100 nm at normal incidence by ~35 x. The collection efficiency under diffuse and direct irradiance in London has been analysed showing that, even under clear sky conditions, in winter the diffuse contribution equals the direct.

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Utilizing vertically aligned CdSe/CdS nanorods within a luminescent solar concentrator

Fisher

Farrell

Zanella

et al. 2015

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Optical characterisation methodologies are employed to validate a nanorod self-alignment technique for use in luminescent solar concentrators (LSCs). The nanorods utilised in this work were CdSe/CdS core/shell nanorods, and the self-alignment technique relied on the evaporation of a highly concentrated nanorod/xylene solution onto a glass substrate. Position and angular dependent light absorptivity measurements revealed evidence of vertical nanorod alignment over a limited region at the centre of the LSC sample. Vertical nanorod alignment is beneficial for absorbing diffuse/scattered sunlight and provides for a high light trapping efficiency in the LSC.

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Luminescent Solar Concentrators utilising aligned CdSe/CdS nanorods

Fisher

Zanella

Farrell

et al. 2011

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Flexible luminescent solar concentrators utilizing bio-derived tandem fluorophores

Fisher

Ippen

Farrell

et al. 2012

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In this work we aim to investigate flexible luminescent solar concentrators (LSCs) for the purpose of portable power generation. We will focus on Surelight® PE-610, which is a tandem fluorophore consisting of R-Phycoerythrin and Rhodamine, as well as PbSe nanorods, as the luminescent species. The luminescent quantum yield, LQY, of PE-610 was measured as 53% in buffer solution, and 75% when deposited in a thin-film. Computational simulations show that a 25cm by 25cm LSC with a 0.1mm thick thin-film containing PbSe nanorods, a LQY of 70% and a substrate thickness of 3mm has an optical efficiency of 4.5±0.1%. An identical LSC with a 0.5mm thick substrate had an optical efficiency of 1.7±0.1% meaning substrate thickness is a key factor for flexible LSCs. A primary advantage of PE-610 as a LSC material is that it is bio-derived, and therefore cheap and abundant. The PbSe nanorods have the advantage of a broad absorption spectrum, though the LQY used is still speculative at this time

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Experimental 5-kW thermoelectric generator

Fisher¹,

Kastovich²,

Moreland³

et al. 1962

Advanced Energy Conversion

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Martyn Fisher

Luminescent solar concentrators with fiber geometry

Utilizing vertically aligned CdSe/CdS nanorods within a luminescent solar concentrator

Luminescent Solar Concentrators utilising aligned CdSe/CdS nanorods

Flexible luminescent solar concentrators utilizing bio-derived tandem fluorophores

Experimental 5-kW thermoelectric generator

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