.. Laser fabrication of large-scale nanoparticle arrays for sensing applications .. - laser fabrication of large-scale nanoparticle arrays for sensing applications ,Figure 4.. (a) Transmission spectra of the gold nanoparticle sensor array in different test solutions of glycerin in water.. The content of glycerin inweight percents and corresponding refractive index of the solutions are shown in the panel.. (b) Spectral position dependence of the resonance dips on the refractive index of the test solutions (n).. (c) Dependence of the sensor sensitivity on the ..Laser fabrication of 2D and 3D metal nanoparticle structures .. A novel method for fabrication of 2D and 3D metal nanoparticle structures and arrays is proposed.. This technique is based on laser-induced transfer of molten metal nanodroplets from thin metal films.. Metal nanoparticles are produced by solidification of these nanodroplets.. The size of the transferred nanoparticles can be controllably changed in the range from 180 nm to 1500 nm.. Several ..
Laser Fabrication of Large-Scale Nanoparticle Arrays for Sensing Applications Autor Kuznetsov, Arseniy I.. dc..contributor..author Autor Evlyukhin, Andrey B.. dc..contributor..author Autor ..
Laser Fabrication of Large-Scale Nanoparticle Arrays for Sensing Applications Autor Kuznetsov, Arseniy I.. dc..contributor..author Autor Evlyukhin, Andrey B.. dc..contributor..author Autor ..
Argon ion-beam etching for patterning metal nanoparticle arrays To further process the deposited metal layer, argon ion-beam etching (IBE) was performed in an etching system (IBE, Oxford i300) at ..
Large-scale surface nanopatterning of a commercial silicon (Si) wafer in the form of regular 1D arrays of high-aspect-ratio vertical nanosheets (NSs) for antifouling and other potential promising optoelectronic, nanophotonic, and sensing applications was performed via multishot picosecond IR-laser ablation under a 5-mm-thick carbon disulfide liquid layer.. Specifically, the nanopatterned ..
Schlagwörter [Freie Schlagwörter]: nanoparticle arrays | nanosphere lithography | LIFT | optical sensing | SURFACE-PLASMON RESONANCE | METAL NANOPARTICLES | GOLD ..
Schlagwörter [Freie Schlagwörter]: nanoparticle arrays | nanosphere lithography | LIFT | optical sensing | SURFACE-PLASMON RESONANCE | METAL NANOPARTICLES | GOLD ..
A novel method for high-speed fabrication of large scale periodic arrays of nanoparticles (diameters 40-200 nm) is developed.. This method is based on a combination of nanosphere lithography and ..
For sensing applications of nanoparticle structures and arrays, the main technological drawback is the high cost and low-throughput of existing fabrication methods.. Most of the experimentally studied structures are fabricated by electron or ion beam lithography, which are not suitable for large-scale and low-cost production..
A novel method for high-speed fabrication of large scale periodic arrays of nanoparticles (diameters 40-200 nm) is developed.. This method is based on a combination of nanosphere lithography and laser-induced transfer.. Fabricated spherical nanoparticles are partially embedded into a polymer substrate.. They are arranged into a hexagonal array and can be used for sensing applications.. An optical ..
Figure 4.. (a) Transmission spectra of the gold nanoparticle sensor array in different test solutions of glycerin in water.. The content of glycerin inweight percents and corresponding refractive index of the solutions are shown in the panel.. (b) Spectral position dependence of the resonance dips on the refractive index of the test solutions (n).. (c) Dependence of the sensor sensitivity on the ..
Fabricated spherical nanoparticles are partially embedded into a polymer substrate.. They are arranged into a hexagonal array and can be used for sensing applications.. An optical sensor with the sensitivity of 365 nm/RIU and the figure of merit of 21..5 in the visible spectral range is demonstrated..
A novel method for high-speed fabrication of large scale periodic arrays of nanoparticles (diameters 40-200 nm) is developed.. This method is based on a combination of nanosphere lithography and laser-induced transfer.. Fabricated spherical nanoparticles are partially embedded into a polymer substrate.. They are arranged into a hexagonal array and can be used for sensing applications.. An optical ..
Large-scale surface nanopatterning of a commercial silicon (Si) wafer in the form of regular 1D arrays of high-aspect-ratio vertical nanosheets (NSs) for antifouling and other potential promising optoelectronic, nanophotonic, and sensing applications was performed via multishot picosecond IR-laser ablation under a 5-mm-thick carbon disulfide liquid layer.. Specifically, the nanopatterned ..
Laser fabrication of 2D and 3D metal nanoparticle structures and arrays.. Kuznetsov AI , Kiyan R , Chichkov BN Opt Express , 18(20):21198-21203, 01 Sep 2010
Fabricated spherical nanoparticles are partially embedded into a polymer substrate.. They are arranged into a hexagonal array and can be used for sensing applications.. An optical sensor with the sensitivity of 365 nm/RIU and the figure of merit of 21..5 in the visible spectral range is demonstrated..
Laser fabrication of 2D and 3D metal nanoparticle structures and arrays.. Kuznetsov AI , Kiyan R , Chichkov BN Opt Express , 18(20):21198-21203, 01 Sep 2010
A novel method for high-speed fabrication of large scale periodic arrays of nanoparticles (diameters 40-200 nm) is developed.. This method is based on a combination of nanosphere lithography and laser-induced transfer.. Fabricated spherical nanoparticles are partially embedded into a polymer substrate.. They are arranged into a hexagonal array and can be used for sensing applications.. An optical ..
Abstract and Figures.. A novel method for fabrication of 2D and 3D metal nanoparticle structures and arrays is proposed.. This technique is based on laser-induced transfer of molten metal ..
Abstract and Figures.. A novel method for fabrication of 2D and 3D metal nanoparticle structures and arrays is proposed.. This technique is based on laser-induced transfer of molten metal ..
A novel method for high-speed fabrication of large scale periodic arrays of nanoparticles (diameters 40-200 nm) is developed based on a combination of nanosphere lithography and laser-induced transfer.. A novel method for high-speed fabrication of large scale periodic arrays of nanoparticles (diameters 40-200 nm) is developed.. This method is based on a combination of nanosphere lithography and ..
