A post-processing method for improving the printing flatness of electronic materials

An electronic material and flatness technology, applied in the post-processing of printing, printing, pre-processing surface, etc., can solve the problems of lack of electrical properties, elongated production lines, and reduced electrical properties of inkjet printing devices, and reduce unevenness. Phenomenon, effect of quality improvement

Active Publication Date: 2014-10-08
SUZHOU NAFANG TECH DEV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0007] 5. For traditional plate printing, one printing plate usually can only print one material, and the overprinting of multiple materials can only be realized through multi-plate overprinting. The production line is forced to be stretched and precise registration is required between the printing plates allow
However, these additive materials usually do not have good electrical properties, which may further reduce the electrical properties of devices prepared by inkjet printing.
Although the rapid heating method can theoretically improve the flatness of the film, it may introduce a large number of defects in the electronic material and affect the performance of the device.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0026] Soak the polyimide film successively in ethanol, isopropanol and water for 10-30 minutes, and blow it dry with high-purity nitrogen after taking it out. Using this film as a flexible substrate, PEDOT-PSS aqueous solution with a solid content of about 1.3% was printed by piezoelectric inkjet method to obtain electrode patterns with length, width and thickness of 1200 μm, 500 μm and 10 μm, respectively. During the printing process, the temperature of the working table is kept at normal temperature, and the movement speed is slowed down as much as possible to ensure the quality of the liquid film.

[0027] Put the product that has completed the above steps into a freeze dryer, and freeze-dry the sample under a vacuum condition of 50-100Pa. The temperature of the shelf in the equipment is controlled between -15°C and -20°C, and the reaction time is controlled at 0.5- within 5 minutes. After the sample was thawed, the concentration of PEDOT-PSS increased significantly, the ...

Embodiment 2

[0029] Glass slices cut into 3cm long and 5cm wide are soaked in ethanol, isopropanol and water for 10-30 minutes and then blown dry with high-purity nitrogen. Using this glass sheet as the substrate, using nano-silver ink with a solid content of about 5% and a water-ethylene glycol mixed solvent, the length, width and thickness of 2000 microns, 400 microns and 12 micron electrode pattern. During the printing process, the temperature of the working table is kept at normal temperature, and the movement speed is maintained at 0.5-2 mm per second to ensure the quality of the liquid film.

[0030] Put the product that has completed the above steps into a freeze dryer, and freeze-dry the sample under a vacuum condition of 20-50Pa. The temperature of the shelf in the equipment is controlled between -20°C and -30°C, and the reaction time is controlled at 2- within 10 minutes. After the sample was thawed, the concentration of the silver ink increased significantly, and the solid con...

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PUM

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Abstract

The invention relates to a low-temperature drying process for an electronic material liquid film printed on a substrate by inkjet to reduce or remove the solvent part in the liquid film, wherein the temperature range of the low-temperature drying process is below minus 5°C, generally referring to Measures to suppress ink fluidity by removing the solvent portion of the process, which is in solid or liquid state during processing. And the low-temperature drying treatment only removes part of the solvent in the liquid film, and the proportion of the removed part of the solvent meets the standard film-forming quality. The effect of implementing the post-treatment process of the present invention is remarkable. In short, through low-temperature drying treatment, the unevenness in the electronic film prepared by inkjet printing can be effectively eliminated or reduced on the basis of the existing electronic ink and printing process. It is conducive to the improvement of the quality of printed electronic products.

Description

technical field [0001] The invention relates to a liquid film printing forming process, in particular to a post-printing treatment method for increasing the flatness of inkjet printing of electronic materials to eliminate the unevenness of the liquid film of electronic materials. Background technique [0002] Inkjet printing refers to a printing process in which ink is ejected onto a substrate under computer control to form a pattern. Because inkjet printing does not require pre-plate making, and the nozzle itself does not directly contact the substrate during the printing process, this method has gained widespread attention in the field of printed electronics. Compared with other contact printing processes, inkjet printing has the following advantages in the production of printed electronics. [0003] 1. Inkjet printing can complete the printing of ink without contact with the printing material. On the one hand, this significantly reduces the limitations of the traditiona...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B05D3/00H01L21/00B41M7/00B41J2/01
Inventor 林剑陈征崔铮
Owner SUZHOU NAFANG TECH DEV
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