One-pot multi-step synthesis of high-aspect-ratio Cu nanowires based on an environment-friendly manner for low-cost and high-performance transparent conductive films

“…The optoelectronic characteristics of the Ag/Cr 2 O 3 NW networks are presented in Figure d in comparison with advanced nanowire-based TCFs. The Ag/Cr 2 O 3 NW networks had higher FoM values than Cu nanowire-based ,, TCFs. The optoelectronic characteristics of Ag/Cr 2 O 3 NW networks in this study also compare favorably with some previously reported composite TCFs based on Ag NWs. ,− Although the FoM of some Ag NWs networks that have been compounded with oxides is higher, the preparation of these networks is time-consuming and expensive. − Their widespread use in real-world production is restricted by their expensive price.…”

“…where R sh is the sheet resistance and T is the optical transmittance at 550 nm wavelength. Figure 5b 12,38,39 TCFs. The optoelectronic characteristics of Ag/Cr 2 O 3 NW networks in this study also compare favorably with some previously reported composite TCFs based on Ag NWs.…”

“…In the meanwhile, the contraction of the spacing region between the Ag NWs results in a decrease in optical transmittance. The figure of merit (FoM) is an important parameter for evaluating transparent conductive films, 30 which is used to evaluate the photoelectric performance of transparent conductive films, as shown in the following formula: 12,38,39 TCFs. The optoelectronic characteristics of Ag/Cr 2 O 3 NW networks in this study also compare favorably with some previously reported composite TCFs based on Ag NWs.…”

Flexible Transparent Conductive Films of Ag/Cr₂O₃ Core–Shell Nanowires as Electrodes for Electroluminescent Devices and Heaters

“…The optoelectronic characteristics of the Ag/Cr 2 O 3 NW networks are presented in Figure d in comparison with advanced nanowire-based TCFs. The Ag/Cr 2 O 3 NW networks had higher FoM values than Cu nanowire-based ,, TCFs. The optoelectronic characteristics of Ag/Cr 2 O 3 NW networks in this study also compare favorably with some previously reported composite TCFs based on Ag NWs. ,− Although the FoM of some Ag NWs networks that have been compounded with oxides is higher, the preparation of these networks is time-consuming and expensive. − Their widespread use in real-world production is restricted by their expensive price.…”

“…where R sh is the sheet resistance and T is the optical transmittance at 550 nm wavelength. Figure 5b 12,38,39 TCFs. The optoelectronic characteristics of Ag/Cr 2 O 3 NW networks in this study also compare favorably with some previously reported composite TCFs based on Ag NWs.…”

“…In the meanwhile, the contraction of the spacing region between the Ag NWs results in a decrease in optical transmittance. The figure of merit (FoM) is an important parameter for evaluating transparent conductive films, 30 which is used to evaluate the photoelectric performance of transparent conductive films, as shown in the following formula: 12,38,39 TCFs. The optoelectronic characteristics of Ag/Cr 2 O 3 NW networks in this study also compare favorably with some previously reported composite TCFs based on Ag NWs.…”

Flexible Transparent Conductive Films of Ag/Cr₂O₃ Core–Shell Nanowires as Electrodes for Electroluminescent Devices and Heaters

Highly transparent and low resistance BaSnO3/Ag nanowire composite thin films

Fabrication of flexible conductive nanosheets at air-water interface by UV irradiation of loosely-packed AgNPs monolayer