The detailed preparation method for the silver nanoparticles in this product is considered proprietary and cannot be disclosed. Generally, commercial methods for creating a stable dispersion include using surfactants, stabilizers, or dispersing agents. Additionally, techniques such as sonication and high-shear mixing can be effective for achieving stable dispersions. These methods can also be applied when preparing a paste of copper nanoparticles in a similar solution.
907669
Silver ink
75 wt%, LIFT printable
Synonym(e):
Ag ink, Laser induced forward transfer
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5 G
200,00 €
About This Item
Lineare Formel:
Ag
UNSPSC-Code:
12352103
NACRES:
NA.23
Empfohlene Produkte
Beschreibung
Silver content : 75 wt%
Solvent : Diethylene Glycol Mono Butyl Ether (DGBE)
Surface Tension : 28 dyn/cm (Pendant Drop)
Form
paste
Partikelgröße
50-70 nm (by Lumisizer™)
90-120 nm (by Lumisizer™)
Viskosität
50,000-100,000 cP (Shear Rate: 1 s-1
250cP - 450 cP (Shear Rate: 1000 s-1))
Dichte
2.85-3.3
Lagertemp.
15-25°C
Anwendung
This Ag ink product is a conductive high viscous ink based on single-crystal silver nanoparticles in an organic solvent, has been designed for LIFT (Laser Induced Forward Transfer) digital printing and laser sintering.
The ink offers:
Fit for:
LIFT digital printing
Additive electronic manufacturing
Printed electronics: RFID, FPD, Sensors
Laser induced forward transfer printing (LIFT) is a non-contact, nozzle-free, one step, direct laser writing process.[1][2]
LIFT can operate under atmospheric conditions, is compatible with low laser fluences, allows the printing of organic and inorganic materials as well as biological elements. The printing process can take place from both liquid and solid phases. It further has a high lateral resolution only defined by the laser spot size. It is a method compatible with inorganic semiconductor sensor fabrication, OLED fabrication and bio printing[3].
The ink offers:
- Uniform and reproducible donor layer with low drying speed
- Stable accurate jetting in different types of laser systems, wide working window of jetting parameters
- High speed printing (20-50kHz), allowing high throughput
- Narrow patterning on plastic and glass substrates (line width ∼50 μm, height ∼0.5 μm, spacing ∼50 μm)
- Laser sintering of LIFT printed pattern, providing good electrical properties
Fit for:
LIFT digital printing
Additive electronic manufacturing
Printed electronics: RFID, FPD, Sensors
Laser induced forward transfer printing (LIFT) is a non-contact, nozzle-free, one step, direct laser writing process.[1][2]
LIFT can operate under atmospheric conditions, is compatible with low laser fluences, allows the printing of organic and inorganic materials as well as biological elements. The printing process can take place from both liquid and solid phases. It further has a high lateral resolution only defined by the laser spot size. It is a method compatible with inorganic semiconductor sensor fabrication, OLED fabrication and bio printing[3].
Sonstige Hinweise
Resistivity (4PP): After laser sintering* ≤ 8 μΩ·cm (≤ 5 bulk) for LIFT printed line (∼1-2 μm thick) on plastic substrate
*Parameters should be optimized depending on line geometry and substrate
*Parameters should be optimized depending on line geometry and substrate
Lagerung und Haltbarkeit
Keep container tightly closed. Store at room temperature, do not heat above 60 °C and do not freeze.
Rechtliche Hinweise
Lumisizer is a trademark of LUM GmbH
Signalwort
Warning
H-Sätze
Gefahreneinstufungen
Aquatic Acute 1 - Aquatic Chronic 1 - Eye Irrit. 2
Lagerklassenschlüssel
10 - Combustible liquids
WGK
WGK 3
Flammpunkt (°F)
Not applicable
Flammpunkt (°C)
Not applicable
Zulassungslistungen
Zulassungslistungen werden hauptsächlich für chemische Produkte erstellt. Für nicht-chemische Produkte können hier nur begrenzte Angaben gemacht werden. Kein Eintrag bedeutet, dass keine der Komponenten gelistet ist. Es liegt in der Verantwortung des Benutzers, die sichere und legale Verwendung des Produkts zu gewährleisten.
EU REACH Annex XVII (Restriction List)
CAS No.
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Hello, could you please disclose how the silver nanoparticles were dispersed in the solution? I am trying to make a paste of copper nanoparticles in a similar solution and would like to know a commercial method for stable dispersion. Thank you
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