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导电银印油墨,电阻率 9 - 10 μΩ-cm
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| 英文名称 | Conductive silver printing ink, resistivity 9 - 10 μΩ-cm |
|---|---|
| 英文别名 | Screen printable silver paste, Dyesol DYAG100 conductive silver ink |
| 法律信息 | Product of Dyesol?Dyesol is a registered trademark of Greatcell Solar |
| 产品介绍 |
Description Sheet Resistivity is 3.6 - 4 mΩ / square / mil. (at a 180°C cure temperature)Use this Conductive Silver Ink to achieve outstanding conductivity at low cure temperatures when printing on a variety of substrates, including glass and polyesters (PET/PEN) and ITO/FTO coated substrates.This Conductive Silver Printing Ink provides outstanding conductivity at low cure temperatures. It provides extremely low resistance of printed conducting tracks, essential for the photovoltaic applications, and is a key enabler in plastic electronics such as DSSC; OPV; CdTe solar cells etc.,by providing lowest track resistances of printed current collectors.The Conductive Silver Printing Ink is comprised of a mixture of pure silver particles and an organometallic silver compound in an organic medium. When printed on polyester films, and then heated to 160 - 180°C, the particles consolidate to form a chemically-welded, continuous metal track. Description Sheet Resistivity is 3.6 - 4 mΩ / square / mil. (at a 180°C cure temperature)Use this Conductive Silver Ink to achieve outstanding conductivity at low cure temperatures when printing on a variety of substrates, including glass and polyesters (PET/PEN) and ITO/FTO coated substrates.This Conductive Silver Printing Ink provides outstanding conductivity at low cure temperatures. It provides extremely low resistance of printed conducting tracks, essential for the photovoltaic applications, and is a key enabler in plastic electronics such as DSSC; OPV; CdTe solar cells etc.,by providing lowest track resistances of printed current collectors.The Conductive Silver Printing Ink is comprised of a mixture of pure silver particles and an organometallic silver compound in an organic medium. When printed on polyester films, and then heated to 160 - 180°C, the particles consolidate to form a chemically-welded, continuous metal track. |
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