Charge Transfer-Mediated Blue Luminescence in Plasmonic Ag–Cu₂O Quantum Nanoheterostructures

Abstract: Metal–semiconductor hybrid nanoheterostructures have the possibility to exhibit new synergic properties other than the combination of properties from discrete components due to the interaction of metal and semiconductor components at the interfaces. Here, we have synthesized Ag–Cu2O eyeball-shaped quantum nanoheterostructures with diameter ranging between 8 and 12 nm using a single-step low-cost solvothermal process. It is observed that the presence of a minimum 3% of Ag is required for the formation of Ag–Cu2… Show more

“…UV–visible spectrum of as-prepared cubic and edge-truncated Cu 2 O samples is shown in Figure a. Due to the relatively large particle size of crystals (edge length ∼500 nm), a broad and strong light scattering band dominates the absorption spectra of both these samples covering an adequate range of wavelength from 475 to 725 nm, which is consistent with previous reports for Cu 2 O particles. − The absorption edge of the cubic Cu 2 O sample is located at about 660 nm, whereas a redshift of the light absorption edge is observed for the edge-truncated cubic Cu 2 O sample. A relative shift in the band position of cubic and edge-truncated crystal is ascribed to the difference between the thickness and size of the particles.…”

Modulating Charge Carrier Dynamics among Anisotropic Crystal Facets of Cu₂O for Enhanced CO₂ Photoreduction

“…UV–visible spectrum of as-prepared cubic and edge-truncated Cu 2 O samples is shown in Figure a. Due to the relatively large particle size of crystals (edge length ∼500 nm), a broad and strong light scattering band dominates the absorption spectra of both these samples covering an adequate range of wavelength from 475 to 725 nm, which is consistent with previous reports for Cu 2 O particles. − The absorption edge of the cubic Cu 2 O sample is located at about 660 nm, whereas a redshift of the light absorption edge is observed for the edge-truncated cubic Cu 2 O sample. A relative shift in the band position of cubic and edge-truncated crystal is ascribed to the difference between the thickness and size of the particles.…”

Modulating Charge Carrier Dynamics among Anisotropic Crystal Facets of Cu₂O for Enhanced CO₂ Photoreduction

“…Through solvothermal synthesis, Ghose et al. prepared Janus Ag−Cu 2 O nanocomposites with an eyeball‐like morphology [40] . The solvothermal reaction was performed at 140 °C in ethanol for 2 h with metal acetates (i. e., Ag(CH 3 COO) and Cu(CH 3 COO) 2 ) as the precursors and dextrose as the reducing agent.…”

“…Through solvothermal synthesis, Ghose et al prepared Janus AgÀ Cu 2 O nanocomposites with an eyeball-like morphology. [40] The solvothermal reaction was performed at 140 °C in ethanol for 2 h with metal acetates (i. e., Ag(CH 3 COO) and Cu(CH 3 COO) 2 ) as the precursors and dextrose as the reducing agent. Only small amounts of Ag(CH 3 COO) was used to create an eyeball-shaped hybrid, where a small Ag particle is attached to a larger Cu 2 O sphere.…”

Rational Design and Synthesis of Ag−Cu₂O Nanocomposites for SERS Detection, Catalysis, and Antibacterial Applications

“…1 In 1996, Matsuzawa et al first reported an ultralong green phosphor, rare earth-doped strontium aluminate with 30 hours afterglow lifetime 2 . Currently, blue and green persistent luminescent phosphor have been well-developed and commercialized due to excellent performance [3][4][5][6][7][8] , but other colors persistent luminescence materials still were developing in the laboratory stage due to the hard synthesis and poor performance. Colorful spectra will open up opportunities for persistent luminescence materials for applications, especially in new types of light sources 8,9 , optoelectronic devices [10][11][12] , individual customization 13,14 , and advanced information security/information anticounterfeiting [15][16][17] with great potential.…”

Color-tunable persistent luminescence hybrid materialsviaradiative energy transfer