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Lumped-element model of plasmonic solar cells
- Authors
- Kim, Chang-Hyun; Seitanidou, Maria; Jin, Jong Woo; Bonnassieux, Yvan; Horowitz, Gilles; Vangelidis, Ioannis; Lidorikis, Elefterios; Laskarakis, Argiris; Logothetidis, Stergios
- Issue Date
- Sep-2018
- Publisher
- PERGAMON-ELSEVIER SCIENCE LTD
- Keywords
- Equivalent circuits; Lumped-element model; Metal nanoparticles; Plasmonics; Solar cells
- Citation
- SOLID-STATE ELECTRONICS, v.147, pp.39 - 43
- Journal Title
- SOLID-STATE ELECTRONICS
- Volume
- 147
- Start Page
- 39
- End Page
- 43
- ISSN
- 0038-1101
- Abstract
- Although metallic nanostructures in solar cells provide versatility in designing useful plasmonic architectures, understanding is still limited on how to exploit their multi-scale contribution as tunable performance. In this article, we suggest a characteristic model that develops into a simple and robust tool for guiding optimization of plasmonic solar devices. The model is conceptually based on the breakdown of the active region into intrinsic and plasmonic sub-circuits, by which the terminal currents are directly correlated with particle geometries and local improvement. Measurements from organic cells support the validity of our theory, and a series of simulation provides further insights into the critical trade-off between voltage and current generation, finally offering a strategy for efficiency enhancement.
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Related Researcher
- Kim, Chang Hyun
- College of IT Convergence (Major of Electronic Engineering)