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Ink composition for optoelectronic device

A technology for optoelectronic devices and compositions, which is applied in the fields of electro-solid devices, inks, photovoltaic power generation, etc., can solve the problems of controlling the viscosity, solubility and film uniformity of the printing process, and the limitation of the size increase of flexible optoelectronic devices.

Inactive Publication Date: 2013-07-24
INKTEC CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0010] As described above, related art ink compositions for optoelectronic device manufacturing have difficulties in controlling viscosity, solubility, and film uniformity to make the ink compositions suitable for printing processes such as inkjet processes
Therefore, the process of film formation by printing of optoelectronic materials provided as inks is limited to the formation of certain organic light-emitting layers
As a result, there are significant limitations in the realization of flexible optoelectronic devices and their size-scaling and cost-effective fabrication

Method used

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  • Ink composition for optoelectronic device
  • Ink composition for optoelectronic device
  • Ink composition for optoelectronic device

Examples

Experimental program
Comparison scheme
Effect test

preparation example 1

[0053] [Preparation example 1]: the preparation of n-butylammonium n-butylcarbamate

[0054] Into a sealed and pressurized 250 mL reactor equipped with a stirrer and an inlet pipe was introduced at room temperature 100 g (1.367 mol) of n-butylamine, and carbon dioxide gas was gradually introduced thereinto for reaction. As the reaction proceeds, the consumption of carbon dioxide decreases, allowing the reaction mixture to fully react until no more carbon dioxide is consumed. In this way, 128.85 g (99% yield, 0.677 mol) of n-butylammonium n-butylcarbamate were obtained in the form of a white powder. The obtained compound is characterized by thermogravimetric analysis (TGA), and the thermogram is as follows figure 1 shown. as from figure 1 It can be seen that the carbamate compound thermally decomposes completely at temperatures below 120°C.

preparation example 2

[0055] [Preparation example 2]: the preparation of n-octyl carbonate n-octyl ammonium

[0056] Into a 250 mL Schlenk bottle equipped with a stirrer and an inlet tube, 100 g (0.774 mol) of n-octylamine and 6.97 g (0.387 mol) of purified water were introduced while the temperature was kept below 30 °C by utilizing cooling water, and 22 g (0.5 mol) of carbon dioxide gas was gradually added thereto. Then, it was reacted with stirring for 2 hours. As the reaction proceeds, the viscosity of the reaction mixture increases. Finally, 119.08 g (yield 96%, 0.372 mol) of n-octylammonium n-octylcarbonate was obtained as a transparent liquid.

preparation example 3

[0057] [Preparation example 3]: the preparation of pentyl ammonium bicarbonate

[0058] Into a 250 mL Schlenk bottle equipped with a stirrer and an inlet tube, 100 g (1.147 mol) of pentylamine and 20.65 g (1.147 mol) of purified water were introduced at room temperature, and carbon dioxide gas was gradually introduced thereinto for reaction. As the reaction proceeds, the consumption of carbon dioxide decreases, allowing the reaction mixture to fully react until no more carbon dioxide is consumed. In this way, 148.95 g (yield 99%, 1.136 mol) of pentylhydropentylamine bicarbonate was obtained as a clear liquid.

[0059] Preparation and Characterization of Printing Ink Compositions

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Abstract

The present invention relates to a printing ink composition capable of inking a material for an optoelectronic device and directly applying the inked material to a patterning process. More specifically, the present invention relates to a printing ink composition for the manufacture of optoelectronic devices, which can be adapted to optoelectronic devices (such as organic electroluminescent devices or organic thin film transistors) by adjusting the physical properties of core materials. Printing method in manufacturing and directly patterning.

Description

technical field [0001] The following disclosure relates to a printing ink composition directly applicable to a patterning process, which is obtained by forming an optoelectronic device material into an ink, and more specifically, relates to a printing ink composition for optoelectronic device manufacturing, The printing ink composition is obtained by controlling the physical properties of key materials used to manufacture optoelectronic devices, including organic light-emitting diodes (OLEDs) or organic thin-film transistors (OTFTs), so that they are suitable for printing processes and can be directly patterned. Background technique [0002] Recently, optoelectronic devices have been successfully commercialized, and their size scaling and cost-effective fabrication have been intensively studied. Typical examples of the optoelectronic device include organic electroluminescent devices or organic light emitting diodes (OLEDs), which are light emitting devices utilizing a sponta...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C09D11/00C09D11/02C09D11/033C09D11/10C09D11/106C09D11/108H01L51/50H10N30/85
CPCH01L51/0037C09D11/38H01L51/0005Y02E10/549C09D11/03H01L51/0007Y02P70/50H10K71/135H10K71/15H10K85/1135H01L21/02288H10K71/13H10K85/631
Inventor 郑光春赵显南柳志勋
Owner INKTEC CO LTD
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