description
Electrodes, Silver content : 75 wt%, Solvent : Diethylene Glycol Mono Butyl Ether (DGBE), Surface Tension : 28 dyn/cm (Pendant Drop)
form
paste
particle size
50-70 nm (by Lumisizer™), 90-120 nm (by Lumisizer™)
viscosity
50,000-100,000 cP (Shear Rate: 1 s-1
250cP - 450 cP (Shear Rate: 1000 s-1))
density
2.85-3.3
storage temp.
15-25°C
Application
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.
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.
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.
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.
Preparation Note
Keep container tightly closed. Store at room temperature, do not heat above 60 °C and do not freeze.
Other Notes
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
Legal Information
Lumisizer is a trademark of LUM GmbH
signalword
Warning
hcodes
Hazard Classifications
Aquatic Acute 1 - Aquatic Chronic 1 - Eye Irrit. 2
存储类别
10 - Combustible liquids
wgk
WGK 3
flash_point_f
Not applicable
flash_point_c
Not applicable
Laser-induced forward transfer from healing silver paste films printing
Turkoz E, et al.
Applied Physics Letters, 113(22), 221601/1-221601/5 (2018)
Printing of complex free-standing microstructures via laser-induced forward transfer (LIFT) of pure metal thin films
Feinaeugle M, et al.
Additive Manufacturing, 24, 391-399 (2018)
V S Cheptsov et al.
Letters in applied microbiology, 67(6), 544-549 (2018-09-18)
Recently, it was shown that laser-induced forward transfer (LIFT) technology and the laser engineering of microbial systems (LEMS) technique (based on LIFT method) are effective for isolation of micro-organisms from different complex substrates. These techniques frequently utilize Au as an
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Small molecular weight organic semiconductors are promising for flexible transistor applications in next-gen soft electronics.
Professors Tokito and Takeda share design principles and optimization protocols for organic electronic devices, focusing on flexibility and low cost.
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