CN112064032B - Supplementary liquid capable of prolonging service life of hydrogen peroxide etching liquid - Google Patents

Abstract

The invention belongs to the technical field of materials for chemical etching of metal materials, and particularly relates to a replenishing liquid capable of prolonging the service life of a hydrogen peroxide etching liquid. The supplementary liquid comprises 4-20% of ammonium persulfate, 8-30% of chelating agent, 4-20% of regulator, 2-10% of multifunctional additive and ultrapure water which enables the total composition to reach 100% relative to the total weight of the total composition. After the supplementary liquid is added into the hydrogen peroxide etching liquid which is close to failure after continuous etching, the service life of the etching liquid can be obviously prolonged again, the purpose of saving the use amount of the etching liquid can be achieved, the etching cost is obviously saved, and the method has great industrial popularization value.

Description

Supplementary liquid capable of prolonging service life of hydrogen peroxide etching liquid

Technical Field

The invention belongs to the technical field of materials for chemical etching of metal materials, and particularly relates to a replenishing liquid capable of prolonging the service life of a hydrogen peroxide etching liquid.

Background

The liquid crystal display comprises a liquid crystal display panel and a backlight module, wherein the liquid crystal display panel comprises a CF substrate, a TFT array substrate and a liquid crystal material between the CF substrate and the TFT substrate. The direction of the liquid crystal molecules is controlled by supplying power to the TFT substrate or not, and the light of the backlight module is projected to the CF substrate to generate a picture.

The liquid crystal panel is the heart of the liquid crystal display, occupies more than 80% of the cost of the whole product, and the quality of the liquid crystal panel can directly influence the functional parameters of the display, such as color, brightness, contrast, visual angle and the like. To produce a liquid crystal panel, three complicated processes of "front-stage Array process, middle-stage Cell process, and rear-stage module assembly" are required. The TFT substrate is composed of a scanning signal line or a gate line transmitting a scanning signal, an image signal line or a data line transmitting an image signal, a thin film transistor connected to the gate line and the data line, a pixel electrode connected to the thin film transistor, and the like. The process of manufacturing the micro-circuit wiring of TFT-LCD is completed by a series of photoetching engineering, such as uniformly coating photoresist on a metal layer, then carrying out light irradiation imaging through a film with a pattern, etching the metal layer which is not covered by the photoresist, stripping and removing the unnecessary photoresist after the metal layer is formed into a desired shape, and the like.

Etching is a technique in which material is removed using a chemical reaction or physical impact. The etching techniques are classified into wet etching and dry etching, wherein the wet etching is performed by a chemical reaction between a specific etching solution and a thin film material to be etched, and the wet etching is still widely used in TFT-LCD due to advantages such as low equipment investment cost and good etching selectivity for a substrate.

In recent years, while the demand of liquid crystal displays is increasing, higher requirements are put on the picture precision of the displays, and the etching effect directly causes the quality of the manufacturing process of the TFT circuit board and affects the quality and precision of high-density wires. Aluminum is used for the metal wiring of the conventional TFT, and as the LCD becomes larger and higher in resolution, the lead wire connected to the TFT becomes longer, and the resistance of the lead wire also increases, causing a problem of signal delay, so that copper having a lower resistivity is used as a wiring material instead of aluminum. However, the bonding force between copper and the glass substrate is not good, and molybdenum needs to be introduced as a bonding layer on the glass substrate. The copper-molybdenum layer becomes the main structure of the TFT wiring.

The etching solution for etching the copper-molybdenum layer of the TFT mainly adopts a hydrogen peroxide system, such as: CN100494499C discloses a multi-layer copper-molybdenum etching solution, which comprises hydrogen peroxide, organic acid, phosphate, two additives containing nitrogen, and fluorine-containing compound. CN104480469A discloses a TFT copper molybdenum laminate etching solution composition, which comprises hydrogen peroxide, sulfuric acid, a stabilizer, a metal complexing agent, a surfactant, and an azole additive. CN102762770A discloses an etching solution for a multilayer film comprising a copper layer and a molybdenum layer, which comprises hydrogen peroxide, sulfuric acid or nitric acid, an organic acid, an amine compound, an azole compound, and a hydrogen peroxide stabilizer.

The above-described hydrogen peroxide-based etching solutions and the hydrogen peroxide-based etching solutions currently used in TFT manufacturing lines have a maximum service life in which the maximum allowable copper ion concentration in the etching solution does not exceed 7000ppm after the copper molybdenum layer is continuously etched by the etching solution. After the copper ion concentration of the etching solution exceeds 7000ppm, if the etching solution is continuously used, the etching parameters such as qualified etching angle and the like cannot be maintained, so the etching solution needs to be replaced, and at this time, only a small part of hydrogen peroxide in the etching solution is consumed, and a large amount of hydrogen peroxide and other components are not fully utilized. If the supplementing liquid can be provided and added into the etching liquid which is rapidly failed, the service life of the etching liquid can be continuously prolonged, the purpose of saving the using amount of the etching liquid can be achieved, and the etching cost can be saved. To achieve the above object, the present invention provides a replenishment solution capable of prolonging the service life of a hydrogen peroxide etching solution.

Disclosure of Invention

The invention aims to provide a supplementary liquid capable of prolonging the service life of a hydrogen peroxide etching liquid, wherein the supplementary liquid is added into the hydrogen peroxide etching liquid which is close to failure (when the concentration of copper ions is not lower than 6000 ppm) after continuous etching, so that the service life of the etching liquid can be obviously prolonged again, the purpose of saving the use amount of the etching liquid can be achieved, and the etching cost can be obviously saved.

In order to realize the purpose, the invention adopts the following technical scheme:

a can improve the supplementary solution composite of the service life of hydrogen peroxide etching solution, the said composite is made up of ammonium persulfate, chelating agent, regulator, multi-functional additive and ultrapure water;

the weight percentage of each component in the composition relative to the whole composition is respectively 4-20% of ammonium persulfate, 8-30% of chelating agent, 4-20% of regulator, 2-10% of multifunctional additive and ultrapure water which enables the whole composition to reach 100%;

the chelating agent is an organic phosphonic acid containing N atoms, and is selected from at least one of amino trimethylene phosphonic acid, ethylene diamine tetra methylene phosphonic acid, hexamethylene diamine tetra methylene phosphonic acid, diethylenetriamine pentamethylene phosphonic acid, dihexyltriamine pentamethylene phosphonic acid and polyamino polyether methylene phosphonic acid, preferably diethylenetriamine pentamethylene phosphonic acid and/or dihexyltriamine pentamethylene phosphonic acid;

the regulator is phosphonobutane tricarboxylic acid;

the multifunctional additive is tetrasodium iminodisuccinate;

the addition amount of the replenishment solution is 2 to 25 percent of the total amount of the original hydrogen peroxide etching solution, and is further 5 to 20 percent.

The above components are specifically described.

Ammonium persulfate: ammonium persulfate is an auxiliary oxidant in the supplementary liquid and has the function of assisting hydrogen peroxide in the original etching liquid to oxidize the TFT copper-molybdenum layer wiring. The reaction between ammonium persulfate, hydrogen peroxide and the copper layer can be represented by the following reaction formula:

S₂O₈ ^2-+H₂O₂+2H⁺+2Cu→2Cu²⁺+2SO₄ ^2-+2H₂O

the amount of ammonium persulfate accounts for 4-20% of the total weight of the supplementary liquid. If the amount of the ammonium persulfate is lower than 4 percent, the supplementary liquid does not obviously prolong the service life of the hydrogen peroxide etching liquid; when the amount of ammonium persulfate in the replenishment solution is more than 20%, the etching rate of the original hydrogen peroxide etching solution is changed, and the use process of the original etching solution cannot be maintained, which also causes the lack of remarkable improvement of the life of the hydrogen peroxide etching solution by the replenishment solution and the reduction of the utilization rate of the etching solution.

Chelating agent: through a great deal of research, the applicant finds that the organic phosphonic acid containing N atoms is most suitable to be selected as the chelating agent in the replenishing solution, the chelating agent has very strong chelating capacity on copper ions and molybdenum ions, and has good chemical stability, no toxicity and no pollution, and moreover, the organic phosphonic acid containing N atoms has a good stabilizing effect on hydrogen peroxide in the original hydrogen peroxide etching solution. The organic phosphonic acid containing an N atom is at least one selected from the group consisting of aminotrimethylenephosphonic acid, ethylenediaminetetramethylenephosphonic acid, hexamethylenediaminetetramethylenephosphonic acid, diethylenetriaminepentamethylenephosphonic acid, dihexyltriaminepentamethylenephosphonic acid and polyaminopolyetherpolyetherpentamethylenephosphonic acid, and more preferably diethylenetriaminepentamethylenephosphonic acid and/or dihexyltriaminepentamethylenephosphonic acid.

After the original hydrogen peroxide etching solution is continuously etched, the most consumed component is the chelating agent or the complexing agent, so that the main component in the replenishing solution is the chelating agent, and the chelating agent accounts for 8-30% of the weight of the replenishing solution. If the amount of the chelating agent is less than 8%, the effect of the supplementary liquid for prolonging the service life of the etching liquid is not obvious, and if the amount of the chelating agent in the supplementary liquid is more than 30%, the pH value of the original etching liquid is reduced, the etching process of the original hydrogen peroxide etching liquid is changed, and the result is that the service life of the hydrogen peroxide etching liquid prolonged by the supplementary liquid is not obvious, and the utilization rate of the etching liquid becomes low as the regulator: the regulator is phosphonobutane tricarboxylic acid which plays two roles, wherein the phosphonobutane tricarboxylic acid can chelate copper and molybdenum ions, and the phosphonobutane tricarboxylic acid is used as a pH value regulator added into the original etching solution in the make-up solution, so that the pH value of the etching solution is regulated to be always stabilized in a smaller range in the subsequent life-prolonging continuous etching process, and the stability of the etching process is facilitated. The amount of regulator is 4~20%, if the amount of regulator is less than 4%, the effect that the replenishment improves etching solution life is not obvious, if the amount of regulator is higher than 20% in the replenishment, can make the pH value of former etching solution reduce, can't maintain former etching technology, and it is not obvious to lead to the replenishment to improve the life-span of hydrogen peroxide etching solution, and etching solution utilization ratio step-down multifunctional additive: the multifunctional additive is tetrasodium iminodisuccinate, and has the following functions: firstly, the tetrasodium iminodisuccinate is used as a stabilizer of the replenisher, the stability of the replenisher in the storage and transportation process is stabilized, secondly, the tetrasodium iminodisuccinate has good chelating capacity for copper and molybdenum, thirdly, the tetrasodium iminodisuccinate also has strong stability for hydrogen peroxide in the etching solution, and fourthly, the tetrasodium iminodisuccinate also has good buffering effect on the pH value of the etching solution. The amount of tetrasodium iminodisuccinate in the replenishment solution is 2-10%, the amount is too small to play the role, if the adjusting agent amount in the replenishment solution is higher than 10%, the pH value of the original etching solution is also higher, the etching process of the original hydrogen peroxide etching solution is changed, the service life of the hydrogen peroxide etching solution improved by the replenishment solution is not obvious, and the utilization rate of the etching solution is reduced.

In addition, the proportion of the following components in the replenishment liquid needs to meet the following conditions to ensure that the replenishment liquid is added into the original hydrogen peroxide etching liquid without causing the pH value of the original etching liquid to deviate: the ratio of the total weight of the chelating agent and the regulator to the weight of the multifunctional additive is 10: 1-2: 1, more preferably 6: 1-4: 1.

compared with the prior art, the invention has the advantages and beneficial effects that:

the supplementing liquid of the invention is added into the hydrogen peroxide etching liquid which is close to lose efficacy after continuous etching, the service life of the etching liquid can be obviously prolonged again, the maximum concentration of allowed copper ions in the etching liquid can be increased from 7000ppm to over 12000ppm from the beginning, the purpose of saving the use amount of the etching liquid can be achieved, and the etching cost is obviously saved.

Drawings

FIG. 1 is a sectional view of a Scanning Electron Microscope (SEM) showing a TFT substrate etched by an etching solution when the concentration of copper ions in the original hydrogen peroxide etching solution is 6000ppm and the concentration of copper ions in the etching solution is increased to 12000ppm by adding 15% of the replenishment solution of example 1; the etching angle was 53.6 degrees and CDloss was 0.89 um.

FIG. 2 is a top view of a Scanning Electron Microscope (SEM) of a TFT substrate in which etching of an original hydrogen peroxide etching solution was measured when the copper ion concentration of the etching solution was increased to 12000ppm after adding 15% of the replenishment solution of example 1 to 6000ppm of the original hydrogen peroxide etching solution; it can be seen that the etched substrate has no molybdenum residue and no undercut.

Detailed Description

The applicant will now describe in detail the technical solutions and effects of the present invention with reference to specific embodiments. It should be understood that the following examples are only examples, and the present invention is not limited to these examples.

The starting materials used in the following examples and comparative examples are commercially available in purities of analytical grade and above, e.g.ultrapure water, having an electrical conductivity of < 5. mu.S/cm.

Preparing supplementary solutions of examples 1 to 6, which can prolong the service life of the hydrogen peroxide etching solution, and supplementary solutions of comparative examples 1 to 8 according to the raw material types and the proportions shown in the following table 1;

the preparation method comprises the following steps: firstly adding ammonium persulfate into ultrapure water, stirring until the ammonium persulfate is completely dissolved, and then sequentially adding a chelating agent, a regulator and a multifunctional additive while stirring.

Table 1: replenisher composition and content for each example and comparative example

DTPMPA: diethylenetriamine penta (methylene phosphonic acid)

BHMTPMPA: dihexylenetriaminepentamethylenephosphonic acid [ Bis (hexamethyenetriaminepentamethylenephosphonic acid ]

PBTCA: phosphonobutane tricarboxylic acids

IDS: tetrasodium iminodisuccinate

Evaluation of Effect of the invention

Experimental TFT substrate: the TFT substrate is a patterned copper-molybdenum laminated film glass substrate provided by Shenzhen Huaxing photoelectric semiconductor display technology Limited, and the thickness of the copper layer is about

The thickness of the molybdenum layer is about

(molybdenum layer on glass substrate, copper layer on top of molybdenum layer).

Hydrogen peroxide-based etching solution: "etchant #1 (Cu)" hydrogen peroxide etching solution of fujiku, easy ai, korea, used by shenzhen huaxing photoelectric semiconductor display technology ltd, has a hydrogen peroxide concentration of 18 wt%, a maximum service life of maintaining etching characteristics of 7000ppm at the maximum allowed copper ion concentration in the etching solution, an abrupt boiling point of the etching solution of 11000ppm, and an etching angle of 35 ° to 60 ° and a CDloss of 1.1um or less when the copper ion concentration in the etching solution is less than 7000 ppm.

Supplementary liquid evaluation experiment: adding 100mL of the hydrogen peroxide etching solution into a beaker, adding 100mg of copper powder and 10mg of molybdenum powder, stirring at 35 ℃ until the copper powder and the molybdenum powder are completely dissolved, continuing for 6 times until the concentration of copper ions in the etching solution reaches 6000ppm, keeping the temperature of the etching solution at about 35 ℃, soaking a 10 x 10mm copper-molybdenum TFT substrate in the etching solution while magnetically stirring the etching solution, and etching for 80 seconds. After the etching, the substrate was washed with water and dried, and the cross-sectional shape, etching angle, and CDloss of the substrate were confirmed by a scanning electron microscope (model number: sigma 500). Then adding supplementary liquid with different proportions, and continuously testing the maximum allowable copper ion concentration of the etching liquid for maintaining the original etching characteristics (the etching angle is 35-60 degrees, the CDloss is less than 1.1 um) and the bumping point of the etching liquid.

And (3) evaluating the service life improvement effect of the etching solution after adding the supplementary solution: percentage of lifetime improvement (maximum allowable copper ion concentration for maintaining etching characteristics-7000)/7000

The maximum allowable copper ion concentration unit for maintaining etching characteristics is ppm, and the concentration value is taken in the formula

The etching solution utilization rate is the maximum allowable copper ion concentration/azeotrope point for maintaining the etching characteristics.

Evaluation results

The specific data of the performance evaluation of the replenisher of each example are shown in the following table 2:

table 2: results of Performance testing

Note: the proportion of the replenishment solution is the mass percentage of the replenishment solution added to the original hydrogen peroxide etching solution.

As can be seen from the above table 2, the service life of the original hydrogen peroxide etching solution can be obviously prolonged by only adding 5-20% of the replenishment solutions of the embodiments 1-6 of the present invention, the maximum concentration of the allowed copper ions in the etching solution can be increased from 7000ppm at the beginning to 12000-17000 ppm, the bumping point can be increased from 11000ppm at the beginning to 15000-23000 ppm, the service life of the etching solution is obviously prolonged, the percentage of the service life of the etching solution is increased to 70% -143%, and the utilization rate of the etching solution is further increased. The purpose of saving the use amount of the etching solution is achieved, the etching cost is obviously saved, and the method has great industrial value.

Compared with the supplementary liquid of comparative examples 1 to 8, which has different content percentages of the components defined by the invention, the supplementary liquid has no obvious effect of improving the service life of the original hydrogen peroxide etching liquid, the service life of the etching liquid is improved by only 14 to 57 percent, and the utilization rate of the etching liquid is low.

FIG. 1 is a sectional view of a Scanning Electron Microscope (SEM) showing a TFT substrate etched by an etching solution when the concentration of copper ions in the original hydrogen peroxide etching solution is 6000ppm and the concentration of copper ions in the etching solution is increased to 12000ppm by adding 15% of the replenishment solution of example 1; the etching angle was 53.6 degrees and CDloss was 0.89 um.

FIG. 2 is a top view of a Scanning Electron Microscope (SEM) of a TFT substrate in which etching of an original hydrogen peroxide etching solution was measured when the copper ion concentration of the etching solution was increased to 12000ppm after adding 15% of the replenishment solution of example 1 to 6000ppm of the original hydrogen peroxide etching solution; it can be seen that the etched substrate has no molybdenum residue and no undercut.

Claims (5)

1. The application of a replenishing liquid composition in prolonging the service life of a hydrogen peroxide etching liquid comprises the following steps: adding the replenishment liquid composition into the nearly ineffective hydrogen peroxide etching liquid, wherein the addition amount of the replenishment liquid composition is 2-25% of the total weight of the nearly ineffective hydrogen peroxide etching liquid;

the supplementary liquid composition consists of ammonium persulfate, a chelating agent, a regulator, a multifunctional additive and ultrapure water;

the weight percentage of each component in the composition relative to the whole composition is respectively 4-20% of ammonium persulfate, 8-30% of chelating agent, 4-20% of regulator, 2-10% of multifunctional additive and ultrapure water which enables the whole composition to reach 100%;

the weight ratio of the total weight of the chelating agent and the regulator to the weight of the multifunctional additive is 10: 1-2: 1;

the chelating agent is organic phosphonic acid containing N atoms;

the regulator is phosphonobutane tricarboxylic acid;

the multifunctional additive is tetrasodium iminodisuccinate.

2. Use according to claim 1, characterized in that: the chelating agent is selected from at least one of amino trimethylene phosphonic acid, ethylene diamine tetra methylene phosphonic acid, hexamethylene diamine tetra methylene phosphonic acid, diethylene triamine pentamethylene phosphonic acid, dihexylene triamine pentamethylene phosphonic acid and polyamino polyether methylene phosphonic acid.

3. Use according to claim 2, characterized in that: the chelating agent is diethylenetriamine pentamethylene phosphonic acid and/or dihexene triamine pentamethylene phosphonic acid.

4. The use according to any one of claims 1 to 3: the supplementing liquid composition is added into the near-failure hydrogen peroxide etching liquid, and the addition amount of the supplementing liquid composition is 5% -20% of the total weight of the near-failure hydrogen peroxide etching liquid.

5. Use according to claim 4, characterized in that: the near-failure hydrogen peroxide etching solution refers to an etching solution in which the concentration of copper ions is not less than 6000 ppm.

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