2018
DOI: 10.1016/j.nanoen.2018.02.040
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Metal@semiconductor core-shell nanocrystals with atomically organized interfaces for efficient hot electron-mediated photocatalysis

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Cited by 126 publications
(142 citation statements)
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“…To optimize the channel for transferring HCs, it is necessary to elaborately engineer the interfacial states by achieving high quality monocrystalline nanostructures (both for the metal and semiconductor) and smooth interfacial regions [90,91]. Zhang et al [92] proposed experimentally an aqueous cation exchange method for preparing Au@MS (M = Cd, Zn) with atomically organized interfaces (Figure 7a). A transient absorption spectroscopy measurement showed the strongest signals of these high quality structures compared to Au and Au@MS, based on conventional methods (Figure 7b).…”
Section: Surface and Interfacial Quality Engineeringmentioning
confidence: 99%
“…To optimize the channel for transferring HCs, it is necessary to elaborately engineer the interfacial states by achieving high quality monocrystalline nanostructures (both for the metal and semiconductor) and smooth interfacial regions [90,91]. Zhang et al [92] proposed experimentally an aqueous cation exchange method for preparing Au@MS (M = Cd, Zn) with atomically organized interfaces (Figure 7a). A transient absorption spectroscopy measurement showed the strongest signals of these high quality structures compared to Au and Au@MS, based on conventional methods (Figure 7b).…”
Section: Surface and Interfacial Quality Engineeringmentioning
confidence: 99%
“…Generally, the plasmonic metal cores mainly include Au, Ag, Cu, and semiconductor nanoshells that are usually centered in metallic oxide, sulfide, and selenide [58][59][60][61][62][63]. For instance, Zhang's group reported the synthesis of high-quality Au@CdS core-shell hybrids with atomically organized interfaces [64]. As shown in Figure 1a,b, the high-yield and monodisperse Au@CdS, with quasi-single crystalline shell, was observed.…”
Section: Introductionmentioning
confidence: 98%
“…We have synthesized plasmonic metal@semiconductor HNCs via a reverse cation exchange-enabled nonepitaxial growth strategy [36]. By this way, the as-formed plasmonic HNCs have been found with excellent plasmon enhancement and photocatalysis applications [37,38].…”
Section: Introductionmentioning
confidence: 99%