Add to ORKGSilver nanowires were gravure printed on flexbile Poly(ethylene terephthalate) film to form conductive transparent patterns. Suspensions containing silver nanowires with different concentrations were formulated and various cell parameters in grauvre plate were investigated in the printing experiments. Printed samples were characterized by microscope and probes for their optical and electrical properties. It was found that concentration and uniformity of the Ag NW network play key roles in the optical transmission and electrical conductivity of printed films. Experimental result showed that with optimized parameters the transmission of 89% at sheet resistance of 200 Ω/sq have been achieved in the gravure printed transparent conductive ...
We report an effective method for fabricating highly transparent and stretchable large-area conducti...
The development of flexible transparent conductive electrodes has been considered as a key issue in ...
Silver nanowires, which have high optoelectronic properties, have the potential to supersede indium ...
Metal nanowire networks are a promising concept for replacing ITO in transparent electrodes for a ra...
We synthesized silver nanowires (AgNWs) with a mean diameter of about 120 nm and 20–70 μm i...
Abstract Gravure printing is a promising technique for large-scale printed electronics. However, gra...
ABSTRACT: The development of printed electronics will require the ability to deposit a wide range of...
The inkjet printing process is a promising electronic printing technique for large-scale, printed, f...
Silver nanowire (AgNWs) inks for inkjet printing were prepared and the effects of the solvent system...
Transparent conductive films with hexagonal and square patterns were fabricated on poly(ethylene ter...
We introduce a new concept for transparent electrodes via the self-assembly of a silver nanowire (Ag...
International audiencePresently, metallic nanowires (NWs) are the most promising materials to fabric...
International audienceThe past few years have seen a considerable amount of research devoted to nano...
In this thesis, silver nanowire (Ag NW) networks are embedded into aluminum doped zinc oxide (AZO) t...
We introduce a new concept for transparent electrodes via the self-assembly of a silver nanowire (Ag...
We report an effective method for fabricating highly transparent and stretchable large-area conducti...
The development of flexible transparent conductive electrodes has been considered as a key issue in ...
Silver nanowires, which have high optoelectronic properties, have the potential to supersede indium ...
Metal nanowire networks are a promising concept for replacing ITO in transparent electrodes for a ra...
We synthesized silver nanowires (AgNWs) with a mean diameter of about 120 nm and 20–70 μm i...
Abstract Gravure printing is a promising technique for large-scale printed electronics. However, gra...
ABSTRACT: The development of printed electronics will require the ability to deposit a wide range of...
The inkjet printing process is a promising electronic printing technique for large-scale, printed, f...
Silver nanowire (AgNWs) inks for inkjet printing were prepared and the effects of the solvent system...
Transparent conductive films with hexagonal and square patterns were fabricated on poly(ethylene ter...
We introduce a new concept for transparent electrodes via the self-assembly of a silver nanowire (Ag...
International audiencePresently, metallic nanowires (NWs) are the most promising materials to fabric...
International audienceThe past few years have seen a considerable amount of research devoted to nano...
In this thesis, silver nanowire (Ag NW) networks are embedded into aluminum doped zinc oxide (AZO) t...
We introduce a new concept for transparent electrodes via the self-assembly of a silver nanowire (Ag...
We report an effective method for fabricating highly transparent and stretchable large-area conducti...
The development of flexible transparent conductive electrodes has been considered as a key issue in ...
Silver nanowires, which have high optoelectronic properties, have the potential to supersede indium ...