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Xiaofeng Li
Researcher at Soochow University (Suzhou)
Publications - 214
Citations - 3445
Xiaofeng Li is an academic researcher from Soochow University (Suzhou). The author has contributed to research in topics: Plasmon & Surface plasmon. The author has an hindex of 26, co-authored 184 publications receiving 2582 citations. Previous affiliations of Xiaofeng Li include Imperial College London & Nanyang Technological University.
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Bridging electromagnetic and carrier transport calculations for three-dimensional modelling of plasmonic solar cells
TL;DR: Three-dimensional modelling of plasmonic solar cells is reported in which electromagnetic simulation is directly linked to carrier transport calculations, and enhanced light absorption and improved electronic response arising from plAsmonic nanoparticle arrays on the solar cell surface are observed.
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Loss mitigation in plasmonic solar cells: aluminium nanoparticles for broadband photocurrent enhancements in GaAs photodiodes
N. P. Hylton,Xiaofeng Li,Vincenzo Giannini,K.-H. Lee,Ned Ekins-Daukes,Josine Loo,Dries Vercruysse,P. Van Dorpe,Hassanet Sodabanlu,Masakazu Sugiyama,Stefan A. Maier +10 more
TL;DR: Al nanoparticles for broadband photocurrent enhancements in GaAs photodiodes were used in this article to mitigate the loss in plasmonic solar cells, and the performance of these nanoparticles was improved.
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Multi-dimensional modeling of solar cells with electromagnetic and carrier transport calculations
TL;DR: In this article, a multi-dimensional model for comprehensive simulations of solar cells (SCs), considering both electromagnetic and electronic properties, is presented, which provides complete spectral and spatial information of typical optical and electronic behavior.
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Plasmonic Fano resonances in nanohole quadrumers for ultra-sensitive refractive index sensing
TL;DR: It is shown numerically by a full-wave finite element method that a nanohole quadrumer can sustain two Fano resonances when the incident electric field is oriented along the long-axis of thequadrumer system.
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Planar Hot-Electron Photodetection with Tamm Plasmons
TL;DR: The proposed TP-based planar configuration significantly simplifies the conventional SP-based systems and opens the pathway for high-performance, low-cost, hot-electron photodetection.