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Plasmonic Effects in Organic Solar Cells Wei E.I. Sha, Wallace C.H. Choy, Weng Cho Chew Department of Electrical and Electronic Engineering The University.

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Presentation on theme: "Plasmonic Effects in Organic Solar Cells Wei E.I. Sha, Wallace C.H. Choy, Weng Cho Chew Department of Electrical and Electronic Engineering The University."— Presentation transcript:

1 Plasmonic Effects in Organic Solar Cells Wei E.I. Sha, Wallace C.H. Choy, Weng Cho Chew Department of Electrical and Electronic Engineering The University of Hong Kong Speaker: Wei E.I Sha Email: wsha@eee.hku.hkwsha@eee.hku.hk PIERS 2012 in Kuala Lumpur, Malaysia

2 Plasmonic Effects in Organic Solar Cells (1) organic solar cell monocrystalline silicon solar cellamorphous/polycrystalline silicon solar cell Advance of solar cell technology

3 Plasmonic Effects in Organic Solar Cells (2) Thin-film organic solar cell low-cost processing mechanically flexible large-area application environmentally friendly Хlow exciton diffusion length Хlow carrier mobility

4 Plasmonic Effects in Organic Solar Cells (3) optical absorption exciton diffusion charge separation charge collection Working principle

5 Plasmonic Effects in Organic Solar Cells (4) Why optical enhancement? The thickness of the active layer must be smaller than the exciton diffusion length to avoid bulk recombination. As a result, the thin-film organic solar cell has poor photon absorption or harvesting. Plasmonic solar cell is one of emerging solar cell technologies to enhance the optical absorption.

6 Plasmonic Effects in Organic Solar Cells (5) Lambert’s cosine law finite-difference frequency-domain method (TE & TM) PBC PML Au PEDOT:PSS Au W.E.I. Sha, W.C.H. Choy, and W.C. Chew, Opt. Lett., 36(4), 478-480, 2011. Small molecule organic solar cell

7 Plasmonic Effects in Organic Solar Cells (6) X.H. Li, W.E.I. Sha, W.C.H. Choy, etc, J. Phys. Chem. C, 2012. In Press. doi: 10.1021/jp211237c Plasmonic band edge boosted optical enhancement (theory and experiment)

8 Plasmonic Effects in Organic Solar Cells (7) VIE-FFT method (BiCG-STAB) enhancement factors 2 fold increase in total absorption! Near-fieldFar-field directional scattering k k W.E.I. Sha, W.C.H. Choy, Y.P. Chen, and W.C. Chew, Appl. Phys. Lett., 99(11), 113304, 2011. active layer Bulk heterojunction polymer solar cell

9 Plasmonic Effects in Organic Solar Cells (8) nanoparticles in spacer layernanoparticles in active layer Comparisons to experimental results C.C.D. Wang, W.C.H. Choy, etc, J. Mater. Chem., 22, 1206-1211, 2011. D.D.S. Fung, L.F. Qiao, W.C.H. Choy, etc, J. Mater. Chem., 21, 16349-16356, 2011.

10 Plasmonic Effects in Organic Solar Cells (9) good spectral overlap Hybrid plasmonic system 4 fold increase in total absorption! W.E.I. Sha, W.C.H. Choy, and W.C. Chew, Opt. Express, 19(17), 15908-15918, 2011.

11 Plasmonic Effects in Organic Solar Cells (10) Multiphysics modeling using unified finite difference method W.E.I. Sha, W.C.H. Choy, Y.M. Wu, and W.C. Chew, Opt. Express, 20(3), 2572-2580, 2012. Maxwell’s equation generation rate semiconductor equations

12 Plasmonic Effects in Organic Solar Cells (11) Beyond optical absorption enhancement: facilitating hole collection!

13 Acknowledgement Thanks for your attention!

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