Effective light trapping in polycrystalline silicon thin-film solar cells by means of rear localized surface plasmons
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Martin A. Green | Zi Ouyang | O. Kunz | Sergey Varlamov | Supriya Pillai | Kylie R. Catchpole | M. Green | K. Catchpole | S. Varlamov | Z. Ouyang | S. Pillai | P. Campbell | O. Kunz | F. Beck | Patrick Campbell | Fiona Beck
[1] M. Green,et al. Surface plasmon enhanced silicon solar cells , 2007 .
[2] S. Varlamov,et al. 5% Efficient evaporated solid‐phase crystallised polycrystalline silicon thin‐film solar cells , 2009 .
[3] Carl Hägglund,et al. Electromagnetic coupling of light into a silicon solar cell by nanodisk plasmons , 2008 .
[4] Albert Polman,et al. Design principles for particle plasmon enhanced solar cells , 2008 .
[5] Albert Polman,et al. Asymmetry in photocurrent enhancement by plasmonic nanoparticle arrays located on the front or on the rear of solar cells , 2010 .
[6] Maria Losurdo,et al. Enhanced absorption in Au nanoparticles/a-Si:H/c-Si heterojunction solar cells exploiting Au surface plasmon resonance , 2009 .
[7] A. Aberle,et al. Commercial white paint as back surface reflector for thin-film solar cells , 2007 .
[8] Martin A. Green,et al. Polycrystalline silicon on glass for thin-film solar cells , 2009 .
[9] Daniel Derkacs,et al. Metal and dielectric nanoparticle scattering for improved optical absorption in photovoltaic devices , 2008 .
[10] Albert Polman,et al. Tunable light trapping for solar cells using localized surface plasmons , 2009 .