The Silver Nanowire Ink for Screen Printing is a ready-to-use water-based Ag nanowire ink formulated for screen printing high-optical-quality conductive patterns, conductive grids, and patterned AgNW coatings. This higher-viscosity ink contains well-dispersed ~30nm silver nanowires, along with adhesion-supporting additives and film-forming components, to support screen-printing compatibility, substrate adhesion, and reliable film conductivity. It is suitable for printing on glass, PET, PMMA, PC, PI, PEI, and other compatible substrates. It can be used for developing printed transparent electrodes, conductive grids, touch sensor patterns, flexible electronic circuits, wearable electronic components, transparent heaters, EMI shielding patterns, and patterned conductive coatings for advanced research and development.
Catalog Number: NovaWire-Ag-SP
Sheet resistance of formed film: 50-100ohm/square
Transparency of formed silver nanowire film: ~95%
Haze: <4%
Curing temperature: ~150 °C for ~15 min
Viscosity: 4000 to 25000mPa.s
Coating and printing methods: screen printing, roller coating etc.
Screen size: ~300 mesh, 55 micron thick
Storage: 5 to 35 degree Celsius
Shake well before use. No sonication.
APPLICATIONS
The Silver Nanowire Ink for Screen Printing can be used in the following applications:
- Screen-printed transparent conductive grids for touch panels, displays, optoelectronic devices, and transparent electrodes.
- Printed conductive patterns on glass, PET, PMMA, PC, PI, PEI, and other compatible substrates.
- Touch sensors and capacitive electrodes requiring patterned, conductive, and flexible AgNW networks.
- Flexible and wearable electronics including printed circuits, flexible interconnects, and conductive patterns on polymer films.
- Transparent heaters for defrosting films, de-icing surfaces, smart windows, and flexible heating devices.
- Printed EMI shielding patterns and conductive coatings for functional films and electronic materials.
- Roller coating or screen-printing process development where a higher-viscosity AgNW ink is preferred over low-viscosity coating dispersions.
- Hybrid conductive structures where printed AgNW patterns are combined with polymers, elastomers, liquid metals, or other conductive materials.
REFERENCES
- Jongseok Lee, Thinh Tam Luong, Namhun Her, Seungmin Lee, Quang Van Duong, Jung Bin In, Sangmin Lee, Seung Hwan Chang, Seung Tae Choi, “Cladding-free thermal drawing for scalable reel-to-reel manufacturing of piezoelectric coaxial polyvinylidene fluoride fibers”, npj Flexible Electronics, 2026, DOI: 10.1038/s41528-026-00590-0.
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