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Title: | Boosting the photoelectrochemical performance of Au/ZnO nanorods by co-occurring gradient doping and surface plasmon modification | ||||||||||
Author: | Güler, Ali Can; Antoš, Jan; Masař, Milan; Urbánek, Michal; Machovský, Michal; Kuřitka, Ivo | ||||||||||
Document type: | Peer-reviewed article (English) | ||||||||||
Source document: | International Journal of Molecular Sciences. 2023, vol. 24, issue 1 | ||||||||||
ISSN: | 1661-6596 (Sherpa/RoMEO, JCR) | ||||||||||
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DOI: | https://doi.org/10.3390/ijms24010443 | ||||||||||
Abstract: | Band bending modification of metal/semiconductor hybrid nanostructures requires low-cost and effective designs in photoelectrochemical (PEC) water splitting. To this end, it is evinced that gradient doping of Au nanoparticles (NPs) inwards the ZnO nanorods (NRs) through thermal treatment facilitated faster transport of the photo-induced charge carriers. Systematic PEC measurements show that the resulting gradient Au-doped ZnO NRs yielded a photocurrent density of 0.009 mA/cm(2) at 1.1 V (vs. NHE), which is 2.5-fold and 8-fold improved compared to those of Au-sensitized ZnO and the as-prepared ZnO NRs, respectively. The IPCE and ABPE efficiency tests confirmed the boosted photoresponse of gradient Au-incorporated ZnO NRs, particularly in the visible spectrum due to the synergistic surface plasmonic effect of Au NPs. A gradient Au dopant profile promoted the separation and transfer of the photo-induced charge carriers at the electrolyte interface via more upward band bending according to the elaborated electrochemical impedance spectroscopy and Kelvin probe force microscopy analyses. Therefore, this research presents an economical and facile strategy for preparing gradient plasmonic noble NP-incorporated semiconductor NRs, which have excellent potential in energy conversion and storage technologies. | ||||||||||
Full text: | https://www.mdpi.com/1422-0067/24/1/443 | ||||||||||
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