Silver nanoparticles are nanoparticles composed of silver whose size ranges between 1 nm and 100 nm. These nanoparticles have unique optical, conductive, antibacterial, and thermal properties which make them ideal candidates as the base for many new technologies and products.
Silver Nanoparticles (Powder)
Average Diameter: 20 nm
Silver Nanowires in water
Average Length: 20 um
Diameter: 20-25 nm
Silver Nanowire (NW2020) consider as an ultra-thin diameter with an aspect ratio >1000. It can be used as conductive filler to formulate conductive ink to fabricate transparent conductive films with low haze value (Haze of Substrate +0,35%) and considered as best alternative for Indium tin oxide (ITO) Film with high flexibility.
Silver Nanowires in water
Average Length: 35 um
Diameter: 50 nm
Silver Nanowires (NW7055) can be used to fabricate transparent conductive films with higher haze values than Silver nanowires with 20 and 35 nm diameter. It can be used as conductive filler to formulate conductive ink to fabricate transparent conductive films with higher haze value (Haze of Substrate +2,5 to 3,5%) and considered as best alternative for Indium tin oxide (ITO) Film with high flexibility. This type of transparent conductive film can be used in solar cells to improve efficiency. In fact, larger haze values lead to increased scattering, thus increasing the optical path length and light trapping inside the active layer.
Low viscous Conductive Ink
Quantity: 1000 grams
Type: Water Based Silver Conductive Inks
Conductive fillers: Silver Nanowire
Recommend process: Slot-die, Mayer rod, Doctor Blade, Micro-gravure and Roll to Roll coating technologies, etc.
This product is ready-to-use Water based Conductive Ink to fabricate low haze and highly Transparent Conductive Film. The substrate that can be used for these inks includes glass, PET, PMMA, PC, PI, PEI, etc.
Silver Nanowires in water
Average Length: 55 um
Diameter: 70 nm
Silver Nanowires (NW7055) can be used to fabricate transparent conductive films with higher haze values than Silver nanowires with 20 and 35 nm diameter. It can be used as conductive filler to formulate conductive ink to fabricate transparent conductive films with higher haze value (Haze of Substrate +2,5 to 3,5%) and considered as best alternative for Indium tin oxide (ITO) Film with high flexibility. This type of transparent conductive film can be used in solar cells to improve efficiency. In fact, larger haze values lead to increased scattering, thus increasing the optical path length and light trapping inside the active layer.
Silver Nanowires in water
Average Length: 40 um
Diameter: 35 nm
Silver Nanowire (NW3540) consider as high aspect ratio >1100 with relatively small diameters. It can be used as conductive filler to formulate conductive ink to fabricate transparent conductive films with low haze value (Haze of Substrate +0,7%) and considered as best alternative for Indium tin oxide (ITO) Film with high flexibility.
Silver Nanowires in water
Average Length: 5 um
Diameter: 20-25 nm
Silver Nanowire (NW2005) consider as an ultra-thin diameter and short length. This product is mainly used as a conductive filler to formulate conductive inks mainly for dispensing and ink-jet printing. By having short NWs, fabricating more stable low viscous inks that are normally used with these printing techniques is easier.
Water-based Conductive Inks to print Transparent line/area with Screen Printing (Conductivity (S/m): > 10^5)
This product is ready-to-use Water based Conductive Ink for screen printing that can be used to print transparent lines and/or fabricate Transparent Conductive Film. The substrate that can be used for these inks includes glass, PET, PMMA, PC, PI, PEI, etc.
High viscous Conductive Ink
UV-Curable Silver Conductive Inks
Conductive fillers: Silver Nanoparticles
Recommend process: Screen Printing
This product is ready-to-use UV-Curable Conductive Ink (free of solvents), for screen printing that can be used to print conductive lines. The printed lines can be cured by UV light (LED) in a few seconds. The substrate that can be used for these inks includes glass, PET, PMMA, PC, PI, PEI, etc.
Low viscous Water Based Silver Conductive Inks
Ink Amount: 100 grams
Conductive fillers: Silver Nanowire
Recommend process: Dispensing methods
This product is water-based and ready-to-use ink that can be applied with dispensing methods to print conductive lines and zones. Meantime, it can be used as inks in conductive pens to repair damaged circuits.
Water-based Conductive Inks to print Semi-transparent line/area with Screen Printing (Conductivity (S/m): > 106)
High viscous Conductive Ink
Water Based Silver Conductive Inks
Conductive fillers: Silver Nanowire
Recommend process: Screen Printing
This product is ready-to-use Water based Conductive Ink for screen printing that can be used to print Semi-transparent lines and/or fabricate Semi-Transparent Conductive Film. The substrate that can be used for these inks includes glass, PET, PMMA, PC, PI, PEI, etc.
This product can be used to fabricate Transparent Heaters.
Film Sheet Size: 24 cm x 30 cm
This product is transparent conductive film. PET was used as a transparent substrate. The film shows high transparency >90%, and low haze <1% at Sheer resistance of 100 ohm/sq.
The main applications of (transparent) conductive films are:
Silver Nanorings & Nanowires In Water The combination of silver nanorings (AgNR) with silver nanowires (AgNW) creates better opto-electrical properties when compared with the same wire diameter of AgNW alone.
Size: 0.1 Liters
Diameter of rings: 10-20 um
Thickness of rings: 80-120 nm
Silver Nanowires in water
Average Length: 70 um
Diameter: 100 nm
Silver Nanowires (NW10070) can be used fabricate transparent conductive films with high haze value than Silver nanowires with 20, 35, and 70 nm. The haze value in this case can reach the haze of substrate + 4,5 to 5,5%. These types of transparent conductive films can be used in solar cells to improve efficiency. In fact, larger haze values lead to increased scattering, thus increasing the optical path length and light trapping inside the active layer.
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