Temperature and atmosphere tunability of the nanoplasmonic resonance of a volumetric eutectic-based Bi_2O_3-Ag metamaterial

Abstract: Nanoplasmonic materials are intensively studied due to the advantages they bring in various applied fields such as photonics, optoelectronics, photovoltaics and medicine. However, their large-scale fabrication and tunability are still a challenge. One of the promising ways of combining these two is to use the self-organization mechanism and after-growth engineering as annealing for tuning the properties. This paper reports the development of a bulk nanoplasmonic, Bi2O3-Ag eutectic-based metamaterial with a tun… Show more

“…The best of the investigated annealing conditions, which led to the most intensive LSPR peak, was annealing at 600°C for 60 min in vacuum [22]. That is why such samples were investigated here further, as shown in Fig.…”

“…Detailed growth and preparation methods have been described elsewhere [21]. After growth, the samples were annealed in vacuum at 600°C for 60 min [22]. The obtained Bi 2 O 3 -Ag composites were characterized by the following methods: high-resolution transmission electron microscopy (HRTEM) connected with selected area electron diffraction and with scanning transmission electron microscopy (STEM) with energy-dispersive X-ray spectroscopy (EDX).…”

“…Recently, eutectic solidification [15,16] has been proposed as one of the most promising bottom-up methods for manufacturing of metamaterials [17][18][19][20], plasmonic materials [21,22] and photonic crystals [23,24]. Eutectic solidification enables crystallization of a two-phase solid, often with an interesting selforganized micro-/nanostructure (typical are rod-like and lamellar structures) from a miscible liquid phase at a certain temperature [25].…”

“…Eutectic composites have been investigated for various applications such as solar energy conversion [26][27][28], power generation gas turbines [29], scintillators [30,31] or second-harmonic generators [32]. The plasmonic effect was presented in a eutectic composite for the first time with a Bi 2 O 3 -Ag composite [21,22]. After annealing the Bi 2 O 3 -Ag eutectic material, metal nanoparticles (silver and bismuth) are formed, which are responsible for the occurrence of plasmonic resonance in the visible wavelength range, at *595 nm.…”

“…After annealing the Bi 2 O 3 -Ag eutectic material, metal nanoparticles (silver and bismuth) are formed, which are responsible for the occurrence of plasmonic resonance in the visible wavelength range, at *595 nm. Using different annealing conditions such as the atmosphere, time and temperature, it is possible to control the peak frequency of the LSPR [22]. However, the development of metallic silver in this material is not yet well understood.…”

Evolution of silver in a eutectic-based Bi2O3–Ag metamaterial

“…The best of the investigated annealing conditions, which led to the most intensive LSPR peak, was annealing at 600°C for 60 min in vacuum [22]. That is why such samples were investigated here further, as shown in Fig.…”

“…Detailed growth and preparation methods have been described elsewhere [21]. After growth, the samples were annealed in vacuum at 600°C for 60 min [22]. The obtained Bi 2 O 3 -Ag composites were characterized by the following methods: high-resolution transmission electron microscopy (HRTEM) connected with selected area electron diffraction and with scanning transmission electron microscopy (STEM) with energy-dispersive X-ray spectroscopy (EDX).…”

“…Recently, eutectic solidification [15,16] has been proposed as one of the most promising bottom-up methods for manufacturing of metamaterials [17][18][19][20], plasmonic materials [21,22] and photonic crystals [23,24]. Eutectic solidification enables crystallization of a two-phase solid, often with an interesting selforganized micro-/nanostructure (typical are rod-like and lamellar structures) from a miscible liquid phase at a certain temperature [25].…”

“…Eutectic composites have been investigated for various applications such as solar energy conversion [26][27][28], power generation gas turbines [29], scintillators [30,31] or second-harmonic generators [32]. The plasmonic effect was presented in a eutectic composite for the first time with a Bi 2 O 3 -Ag composite [21,22]. After annealing the Bi 2 O 3 -Ag eutectic material, metal nanoparticles (silver and bismuth) are formed, which are responsible for the occurrence of plasmonic resonance in the visible wavelength range, at *595 nm.…”

“…After annealing the Bi 2 O 3 -Ag eutectic material, metal nanoparticles (silver and bismuth) are formed, which are responsible for the occurrence of plasmonic resonance in the visible wavelength range, at *595 nm. Using different annealing conditions such as the atmosphere, time and temperature, it is possible to control the peak frequency of the LSPR [22]. However, the development of metallic silver in this material is not yet well understood.…”

Evolution of silver in a eutectic-based Bi2O3–Ag metamaterial

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