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Tunable Localized Surface Plasmon Resonance and Broadband Visible Photoresponse of Cu Nanoparticles/ZnO Surfaces

Abstract : Plasmonic Cu nanoparticles (NP) were successfully deposited on ZnO substrates by atomic layer deposition (ALD) owing to the Volmer–Weber island growth mode. An evolution from Cu NP to continuous Cu films was observed with an increasing number of ALD cycles. Real and imaginary parts of the NP dielectric functions, determined by spectroscopic ellipsometry using an effective medium approach, evidence a localized surface plasmon resonance that can be tuned between the visible and near-infrared ranges by controlling the interparticle spacing and size of the NP. The resulting Cu NP/ZnO device shows an enhanced photoresponse under white light illumination with good responsivity values, fast response times, and stability under dark/light cycles. The significant photocurrent detected for this device is related to the hot-electron generation at the NP surface and injection into the conduction band of ZnO. The possibility of tuning the plasmon resonance together with the photoresponsivity of the device is promising in many applications related to photodetection, photonics, and photovoltaics.
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https://hal.univ-lorraine.fr/hal-02899428
Contributor : Yann Battie <>
Submitted on : Wednesday, July 15, 2020 - 11:03:26 AM
Last modification on : Thursday, March 11, 2021 - 2:26:02 PM

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Claudia de Melo, Maud Jullien, Yann Battie, Aotmane En Naciri, Jaafar Ghanbaja, et al.. Tunable Localized Surface Plasmon Resonance and Broadband Visible Photoresponse of Cu Nanoparticles/ZnO Surfaces. ACS Applied Materials & Interfaces, Washington, D.C. : American Chemical Society, 2018, 10 (47), pp.40958-40965. ⟨10.1021/acsami.8b17194⟩. ⟨hal-02899428⟩

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