Mei Xue, Huajun Shen, Jinfeng Zhu, Seong-ku Kim, Lu Li, Zhibin Yu, Q. Pei, Kang L. Wang, H. Qasem, A. Alzaben, H. Enaya, Zaid S. Al Otaibi
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Absorption and transport enhancement by Ag nanoparticle plasmonics for organic optoelectronics
The organic films such as P3HT/PCBM incorporating Ag metal nanoparticles are fabricated and experimentally characterized. Due to the excited surface plasma induced by Ag metal nanoparticles, the absorption of the active organic material layer is increased by around 30%. The broadened absorption spectrum to the 260–650nm wavelength range is also observed from our measurements because of the enhanced scattering cross section by Ag metal nanoparticles. Furthermore, by incorporating Ag nanoparticles into the active layer, the mobility have also been improved. Finite Difference Time Domain (FDTD) simulations confirm the increase in transmission of electromagnetic radiation at visible wavelength. The hopping model is proposed to explain the transport mechanism for the device operations. These observations suggest a variety of approaches for improving the performance of general organic optoelectronic devices.
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