KR20210047553A - Apparatus for Synthesizing Quantom Dot and Method Thereof - Google Patents

Abstract

The present invention relates to a quantum dot synthesizing apparatus capable of synthesizing excellent quantum dots by controlling the optimum temperature and time and also controlling the concentration, and a method for synthesizing the same. Specifically, the quantum dot synthesizing apparatus comprises: a mixing container for mixing a plurality of raw materials; a stirring device coupled to the mixing container and stirring a plurality of raw materials; a condensing device that controls the pressure inside the mixing container and condenses the moisture of the raw materials; and a control device for controlling the stirring device and the condensing device.

Description

Quantum dot synthesis device and its synthesis method {Apparatus for Synthesizing Quantom Dot and Method Thereof}

The present invention relates to an apparatus for synthesizing a quantum dot capable of synthesizing an excellent quantum dot by controlling an optimum temperature and time, and controlling a concentration, and a synthesis method thereof.

Patent Invention 001 is a precursor synthesis unit for synthesizing a precursor to generate quantum dot nanoparticles, a core synthesis unit for generating a quantum dot core by a precursor generated from the precursor synthesis unit, and a core synthesis unit for synthesizing the core. In the quantum dot synthesis device comprising a core / shell synthesis unit for synthesizing the quantum dot core / shell by the quantum dot core, the precursor synthesis unit, the core synthesis unit and the core / shell synthesis unit, a reaction in the form of a screw twisted in a spiral It is characterized by including a tube, wherein the twisting spacing of the screw-type reaction tube is partially formed differently to provide a technique in which the flow rate of the reactant is controlled.

Patent Invention 002 relates to a quantum dot synthesis device comprising at least one pump supplying a precursor solution for forming quantum dots, a mixer mixing the precursor solution supplied from the pump, a flow path through which the mixed solution mixed in the mixer flows, and the A technology including a heating unit is provided so that a flow path surrounds an outer circumferential surface and transfers heat to the mixed solution flowing through the flow path to heat it.

Patent Document 003 is a step of injecting a precursor solution for forming a quantum dot into a plurality of nano holes having the same size formed in a quantum dot synthesis frame; Heating the quantum dot composite frame according to a predetermined heating schedule; And recovering the quantum dots synthesized in the plurality of nanopores after the predetermined heating schedule is performed, and the quantum dot synthesis apparatus according to the present invention for solving the technical problem includes a precursor for forming a quantum dot ( a quantum dot synthesis frame in which a precusor) solution is injected and having the same size, in which a plurality of nano holes are formed; Heating means for applying heat to the quantum dot synthesis frame according to a predetermined heating schedule after the precursor solution is injected into the plurality of nano holes; And a quantum dot recovery means for receiving quantum dots synthesized in the plurality of nano holes based on the execution of the predetermined heating schedule.

Patent document 004 forms a reaction space in which a solvent is filled therein, a reaction tank made of a transparent material to observe the inside, a heating means installed on the side of the reaction tank to heat the reaction tank, and a receiving part filled with a precursor, , A precursor supply unit consisting of an injection pipe for supplying the precursor of the receiving unit into the reaction tank, a valve for opening and closing the connection portion between the receiving unit and the injection tube, and rotating in the reaction tank to stir the solvent and the injected precursor in the reaction tank. A technology including a stirring means having an impeller, the heating means, the valve, and an operation panel for controlling the overall operation of the stirring means is proposed.

KR 10-2019-0073130 A (June 26, 2019) KR 10-2016-0106810 A (September 13, 2016) KR 10-2014-0120664 A (October 14, 2014) KR 10-1295543 B1 (August 2, 2013)

The present invention relates to an apparatus for synthesizing a quantum dot capable of synthesizing an excellent quantum dot by controlling an optimum temperature and time, and controlling a concentration, and a synthesis method thereof.

The present invention is to solve the problems of the prior inventions, and the present invention is an invention for a quantum dot synthesis device, in the quantum dot synthesis device, a mixing container 100 for mixing a plurality of raw materials 10;, in the mixing container 100 It is combined, a stirring device 200 for stirring a plurality of raw materials (10); A condensing device 300 for controlling the pressure inside the mixing container 100 and condensing moisture in the raw material 10; Consists of a configuration including; a control device 400 for controlling the stirring device 200 and the condensing device 300.

The present invention is an invention for a quantum dot synthesis device, the mixing vessel 100 presented above;, a stirring device 200;, a condensing device 300;, a control device 400; in the invention consisting of the stirring device 200 ) Is accommodated in the mixing vessel 100, the stirrer 210 rotated by the motor 214; A blowing device 220 that surrounds the agitator 210 and ejects gas; is added.

The present invention is an invention for a quantum dot synthesis device, and the condensing device 300 in the invention consisting of the mixing vessel 100;, the stirring device 200;, the condensing device 300;, the control device 400; ) Is connected to the upper end of the mixing vessel 100, the condensation tank 310 for liquefying moisture and gas; A vacuum pump 320 connected to the condensing tank 310 and sucking moisture and gas from the mixing container 100 is added.

The present invention is an invention for a quantum dot synthesis device, the mixing container 100 presented above;, a stirring device 200;, a condensing device 300;, a control device 400; in the invention consisting of the mixing container 100 ), and an injection device 500 for injecting an additional raw material 10 and an inert gas; is added.

It is to solve the problems of the prior inventions, the present invention is an invention of a quantum dot synthesis method, in the quantum dot synthesis method, a storage step of storing a plurality of raw materials 10 in the mixing container 100 of claim 1 (S1100) ;, After the storage step (S1100), a stirring step (S1200) of stirring the raw material 10 by the stirring device 200 of claim 2;, After the stirring sugar, a gas injection step (S1300) of injecting gas; It consists of a configuration that includes.

The present invention is an invention for a quantum dot synthesis apparatus, and the storage step (S1100) presented above;, a stirring step (S1200);, a gas injection step (S1300); after the gas injection step (S1300), stirred An additional raw material injection step (S1400) of injecting the additional raw material 10 into the raw material 10 (S1400); is added.

The present invention can synthesize non-cadmium-based quantum dots with a narrow half width.

The present invention can produce a high-quality precursor and a high-quality core by a combination of raw materials formed of chemical substances.

In the present invention, a quantum dot having a half width of 40 nm or less can be synthesized only by mixing a small amount of elements.

The present invention can generate a high-quality quantum dot by forming a uniform concentration gradient and temperature distribution.

In the present invention, the synthesis time can be appropriately maintained by heating and stirring while the raw material is stored.

The present invention can quickly supply additional raw materials to raw materials in a quantitative manner.

In the present invention, a gas blowing device is formed in the stirring device for stirring the raw material, so that gas can be supplied to the raw material smoothly.

1 is a perspective view showing a quantum dot synthesis device of the present invention.
Figure 2 is a perspective view showing the stirring device of the present invention.
Figure 3 is a cross-sectional view showing a quantum dot synthesis device of the present invention.
Figure 4 is a cross-sectional view showing the mixing vessel and stirring device of the present invention.
Figure 5 is a cross-sectional view showing the condensing device of the present invention.
Figure 6 is a cross-sectional view showing the injection device of the present invention.
7 is a flow chart showing a quantum dot synthesis method according to another embodiment of the present invention.
8 is a cross-sectional flow diagram illustrating a method of synthesizing a quantum dot shown in FIG. 7.
9 is a photograph showing a quantum dot illuminated by ultraviolet irradiation.
10 is a graph showing the quantum dot synthesis result of the present invention.

Hereinafter, in order to describe in detail enough that a person of ordinary skill in the art can easily implement the present invention, the most preferred embodiment of the present invention will be described in detail.

The numbers cited in the following examples are not limited only to the object of reference, and may be applied to all examples. Objects that exhibit the same purpose and effect as the configuration presented in the examples correspond to equivalent substitutional objects. The upper concept presented in the examples includes the object of the lower concept that is not described.

(Example 1-1) In the quantum dot synthesis apparatus of the present invention, a mixing container 100 for mixing a plurality of raw materials 10;, combined with the mixing container 100, and agitating a plurality of raw materials 10 A stirring device 200; A condensing device 300 for controlling the pressure inside the mixing container 100 and condensing moisture in the raw material 10; And a control device 400 for controlling the stirring device 200 and the condensing device 300.

The present invention relates to a device for synthesizing a quantum dot for generating a large amount of quantum dots, and specifically, it is possible to produce a large amount of quantum dots having a nano-sized particle diameter by mixing a plurality of raw materials 10. The quantum dot synthesis apparatus of the present invention is for generating a display quantum dot, and the necessary characteristics of the display quantum dot require high quantum efficiency and a narrow half-width (FWHM) in addition to basic quantum dot characteristics such as stability. In addition, in recent years, depending on environmental issues, quantum dots without cadmium are required. These non-cadmium-based quantum dots are synthesized with a narrow half width. At this time, in the quantum dot synthesis apparatus of the present invention, raw materials 10 such as indium, phosphorus, zinc, selenium, and sulfur are stored in the mixing container 100 and then gallium By adding (gallium) and being stirred by the stirring device 200, quantum dots having a half width of 40 nm or less can be synthesized. And in order to apply the quantum dots generated by the quantum dot synthesis device to the display, the form of a quantum dot film is mainly used, and a blue backlight (blue LED BLU) is still used as a light source, and green and red quantum dots are filmed and used do. These quantum dots grow according to the Ostwald growth mechanism, and grow as a function of temperature, time, and concentration. In addition, under the same temperature and time conditions, since particles with a high concentration grow by incorporating smaller particles, the optimum temperature, time, and concentration are conditions for synthesizing quantum dots having excellent properties.

(Example 1-2) According to Example 1-1, the quantum dot synthesis apparatus of the present invention is a frame 20 for reducing vibration by raising the mixing container 100 and the stirring device 200 from the ground. Includes.

(Example 1-3) The quantum dot synthesis apparatus of the present invention in Example 1-1, wherein the mixing container 100 is a storage body 110 in which a plurality of raw materials 10 are stored;, the storage body 110 ) Is formed on the outside, and circulates the oil 30 to heat the raw material 10 to heat the heating device 130; includes.

(Example 1-4) According to Example 1-3, the quantum dot synthesis apparatus of the present invention comprises: a mixing cover 120 formed on top of the storage body 110 and formed of three spheres; Includes; a sealing member 111 formed between the mixing cover 120 and the storage body 110.

(Example 1-5) The apparatus for synthesizing quantum dots of the present invention includes a fixing device for fixing the storage body 110 and the mixing cover 120 according to Example 1-4.

The present invention relates to the mixing container 100, specifically the mixing container 100 is formed of three mixing ports 121, the stirring device 200, the condensing device 300 is combined, a plurality of raw materials 10 ) Is stored. The mixing vessel 100 is fixed to the frame 20 together with the stirring device 200 and the condensing device 300, and the frame 20 is formed in various ways, such as a profile and a square tube. The mixing container 100 is spaced apart from the ground and fixed by the frame 20, and when the raw material 10 is stirred by the stirring device 200, it prevents damage due to shaking or impact, and at the same time, the raw material ( 10) can be prevented from being deformed. And the mixing container 100 is formed of a transparent material glass and synthetic resin, the storage body 110 and the heating device 130 is formed on the outside of the storage body 110 in double. The storage body 110 stores a plurality of raw materials 10 such as indium, phosphorus, zinc, selenium, and sulfur, and the mixing cover 120 is combined thereon. do. At this time, a sealing member 111 is formed between the storage body 110 and the mixing cover 120 to prevent the raw material 10 from being separated when the raw material 10 is stirred. The mixing cover 120 is formed of three holes in which the stirring device 200, the condensing device 300, and the additional raw material injection unit 510 to be described later are respectively combined, and is formed of a transparent material in the same manner as the storage body 110. In addition, a fixing device is formed between the mixing cover 120 and the storage body 110, and the fixing device is formed automatically and manually so that the mixing cover 120 and the storage body 110 are in close contact with each other.

Therefore, the mixing container 100 is formed of a transparent material such that five elements are mixed and stirred, and the quantum dots can be visually confirmed.

(Example 1-6) In the quantum dot synthesis apparatus of the present invention in Example 1-3, the heating device 130 is a coupling pipe 131 through which oil 30 is introduced and discharged;, a plurality of coupling pipes ( And a circulation pipe 132 that connects 131 and circulates the oil 30.

(Example 1-7) The quantum dot synthesis apparatus of the present invention in Example 1-6, wherein the circulation pipe 132 is a circulation pump for circulating oil 30 by pressure;, heating to heat the oil 30 It includes; mechanism 133.

(Example 1-8) In Example 1-7, the apparatus for synthesizing quantum dots of the present invention includes: heating the oil 30 to a temperature of 0 to 250°C.

The present invention relates to a heating device 130, specifically for heating a plurality of raw materials 10 stored in the storage body 110. This heating device 130 surrounds the outside of the storage body 110 and is formed. In addition, the heating device 130 has a circulation space in which the oil 30 is circulated to heat the raw material 10 stored in the storage body 110 according to the temperature of the oil 30 controlled by the control device 400. And keep warm. The heating device 130 has a coupling pipe 131 through which the oil 30 is introduced and discharged, and the coupling pipes 131 are respectively located at positions corresponding to each other, so that the oil 30 is introduced and discharged. A circulation pipe 132 for circulating the oil 30 and heating the oil 30 is formed in the coupling pipe 131. Both ends of the circulation pipe 132 are coupled to the coupling pipe 131 through which the oil 30 flows in and the coupling pipe 131 through which the oil 30 is discharged. Adjust the temperature of (30). At this time, the heating mechanism 133 may increase or cool the temperature of the raw material 10 by heating the temperature of the oil 30 to 0 to 250°C.

Accordingly, the heating device 130 may adjust the temperature of the raw material 10 to be stirred as the oil 30 whose temperature is controlled is circulated outside the storage body 110.

(Example 2-1) The present invention relates to a quantum dot synthesis device, and in Example 1-1, the stirring device 200 is accommodated in the mixing vessel 100, and rotated by a motor 214 A stirrer 210; It encloses the stirrer 210, and a jetting device 220 for jetting gas.

(Example 2-2) The quantum dot synthesis apparatus of the present invention in Example 2-1, wherein the stirrer 210 is formed through the mixing cover 120 of the mixing vessel 100, the motor 214 A rotating shaft 211 rotated by; It is formed at one end of the rotation shaft 211, a blade 212 for stirring a plurality of raw materials 10; includes.

(Example 2-3) In Example 2-2, the apparatus for synthesizing quantum dots of the present invention includes at least one blade 212 installed on the rotation shaft 211.

(Example 2-4) In the quantum dot synthesis apparatus of the present invention in Example 2-3, the mixing cover 120 is through the rotating shaft 211, and the sealing to prevent leakage of the raw material 10 and gas. It includes; member 213.

The present invention relates to a stirring device (200). The stirring device 200 stirs a plurality of raw materials 10 at one end accommodated in the mixing container 100 and stored in the mixing container 100. The stirring device 200 is provided with a stirrer 210 for stirring the raw material 10 and a jetting device 220 for blowing gas into the mixing container 100. The stirrer 210 has a rotating shaft 211 passing through the mixing vessel 100, and a rotating shaft 211 rotating by the motor 214 is formed. At this time, the motor 214 that rotates the rotation shaft 211 is to adjust the rotation torque by the control device 400, and is fixed to the frame 20 to smoothly rotate the rotation shaft 211 without moving. And the rotation shaft 211 is formed through the mixing hole 121 formed in the center so that the rotation shaft 211 of the mixing cover 120 formed of the three mixing holes 121 is held vertically, the rotation shaft 211 Each of the mixing ports 121 is formed to pass through a sealing member 213 that seals the raw material 10 and gas so as not to be discharged. In addition, the sealing member 213 is formed of a rubber material, and a iron plate of a foreign material may be formed therein so as not to wear out due to rotation of the rotation shaft 211 or interfere with the rotation of the rotation shaft 211. In addition, a blade 212 is formed at an end of the rotation shaft 211, and the blade 212 may be accommodated in the mixing container 100. The blade 212 is formed by being bent to the side at the end of the rotation shaft 211, and at least one blade 212 is installed to effectively agitate the raw material 10. Specifically, the blade 212 may be formed anywhere at the end of the rotation shaft 211 and the center of the rotation shaft 211, and effectively agitates the raw material 10 by generating a vortex. Therefore, the stirring device 200 is accommodated in the mixing vessel 100, and has a characteristic of agitating the raw material 10 as it rotates by the motor 214.

(Embodiment 2-5) In the embodiment 2-1, the apparatus for synthesizing quantum dots of the present invention includes: an ejection unit 230 surrounding the rotation shaft 211 and ejecting gas; It includes; a temperature control unit 240 for controlling the temperature of the ejection unit 230 by current.

(Embodiment 2-6) In the quantum dot synthesis apparatus of the present invention in Embodiment 2-5, the ejection unit 230 includes a plurality of ejection holes 231 through which gas is ejected.

(Example 2-7) In the quantum dot synthesis apparatus of the present invention in Example 2-5, the temperature control unit 240 is formed in the mixing container 100, measuring the temperature of the raw material 10 A temperature measuring device 241; And a current supply device 242 for supplying current according to the temperature measured by the temperature measuring device 241.

The present invention relates to a jetting device 220, and specifically, the jetting device 220 can jet nitrogen gas and argon gas into the mixing vessel 100. The jetting device 220 quantitatively jets nitrogen gas and argon gas into the plurality of raw materials 10 stirred by the stirring device 200 in order to form the atmosphere inside the mixing container 100 into an inert atmosphere. The ejection device 220 surrounds the rotation shaft 211 and includes a ejection unit 230 through which gas is ejected and a temperature control unit 240 for controlling the temperature of the ejection unit 230. The ejection part 230 is formed to be spaced apart from the rotation shaft 211, but is formed through the rotation shaft 211 in the center. In addition, the ejection unit 230 is formed in a double shape to form an ejection space through which gas supplied from the upper portion is ejected, and a ejection hole 231 through which gas is ejected is formed outside the ejection portion 230. In addition, the ejection part 230 passes through the upper sealing member 213 and a supply pipe connected to the gas injection part 520 to be described later is formed, and the supply pipe is formed to be spaced apart from the rotation shaft 211. The ejection unit 230 may be formed of iron, and the temperature of the raw material 10 may be increased by increasing the temperature by the temperature control unit 240. The temperature control unit 240 is formed to be spaced apart from the supply pipe, and one end is coupled to the ejection unit 230 to increase the temperature of the raw material 10. The temperature control unit 240 is formed with a current supply device 242 that increases the temperature of the ejection unit 230 by the current. Further, a temperature measuring device 241 for measuring the temperature of the raw material 10 and the temperature inside the mixing container 100 is formed. The temperature measuring device 241 is formed of a thermometer and controls the temperature of the ejection unit 230 according to the temperature measured by the thermometer. The temperature of the temperature control unit 240 is controlled by the control device 400. Therefore, the ejection device 220 is for ejecting nitrogen gas and argon gas into the mixing vessel 100, and ejects nitrogen gas and argon gas when the temperature of the raw material 10 rises to a set temperature.

(Example 3-1) The present invention relates to a quantum dot synthesis device, and in Example 2-1, the condensing device 300 is connected to the upper end of the mixing container 100, and liquefied moisture and gas. Condensation tank 310; And a vacuum pump 320 connected to the condensation tank 310 and sucking moisture and gas from the mixing container 100.

(Example 3-2) In the quantum dot synthesis apparatus of the present invention in Example 3-1, the condensation tank 310 is connected to the mixing container 100, and the discharge pipe 311 through which the moisture and gas are discharged. Includes;

(Example 3-3) The quantum dot synthesis apparatus of the present invention in Example 3-2, wherein the vacuum pump 320 controls the pressure inside the mixing vessel 100; includes.

(Example 3-4) In the quantum dot synthesis apparatus of the present invention in Example 3-3, the condensation tank 310 includes a liquid space 312 in which moisture and gas are liquefied; And a storage space 313 that surrounds the outside of the first space and stores liquid nitrogen.

The present invention relates to a condensing device 300, and specifically, the condensing device 300 sucks moisture and gas generated when the raw material 10 is stirred. This condensing device 300 is formed with a condensation tank 310 that liquefies and discharges moisture and gas delivered from the mixing container 100, and the condensation tank 310 is connected to the vacuum pump 320 to store moisture and gas. Inhale. The condensation tank 310 is connected to the mixing container 100 and a discharge pipe 311 penetrating through the sealing member 213 is formed, and the discharge pipe 311 is a mixing container 100 for water and gas by a vacuum pump 320. ) To discharge. In addition, the condensation tank 310 is formed in a double so that a liquid space 312 in which moisture and gas are cooled and liquefied by liquid nitrogen and a storage space 313 in which liquid nitrogen is stored are formed. At this time, the liquid space 312 and the storage space 313 are formed double, and the storage space 313 is formed to surround the liquid space 312. In addition, liquid nitrogen stored in the storage space 313 is circulated to maintain a constant temperature. The vacuum pump 320 may suck moisture and gas and discharge liquefied moisture and gas at the same time. In addition, the vacuum pump 320 controls the pressure inside the mixing container 100 and sucks air so that the pressure inside the mixing container 100 is less than 100 mTorr.

Accordingly, the condensing device 300 is to liquefy the moisture and gas generated as the temperature of the raw material 10 is increased and stirred by liquid nitrogen and discharge it.

(Example 4-1) The present invention relates to an apparatus for synthesizing a quantum dot, and in Example 3-1, an injection device 500 for injecting an additional raw material 10 and an inert gas is coupled to the mixing container 100 ); includes.

(Example 4-2) The quantum dot synthesis apparatus of the present invention in Example 4-1, wherein the injection device 500 includes an additional raw material injection unit 510 for injecting an additional raw material 10; And a gas injection unit 520 connected to the stirring device 200 and injecting an inert gas.

(Example 4-3) The quantum dot synthesis apparatus of the present invention in Example 4-2, wherein the additional raw material injection unit 510 is an additional unit 511 in which the additional raw material 10 is stored;, the addition unit ( It includes; a pressure device 514 for applying pressure to 511.

(Example 4-4) In the quantum dot synthesis apparatus of the present invention in Example 4-3, the addition unit 511 is a storage container 512 in which an additional raw material 10 is stored;, the storage container 512 Includes; insertion container 513 inserted into.

The present invention relates to an injection device 500, specifically coupled to the mixing container 100 to inject an additional raw material 10 and gas. The injection device 500 includes an additional raw material injection part 510 for injecting the additional raw material 10 and a gas injection part 520 for injecting nitrogen gas and argon gas. The additional raw material injection part 510 injects the additional raw material 10 formed from a phosphorus hydrogen source within 1 second, and the phosphorus hydrogen source is trioctylphosphine and tris dimethyl It is formed by mixing trisdiethylaminophosphine in an 8:2 ratio. In this case, a mixed solution of selenium powder, selenium powder, zinc stearate, and octadecene may be further added to the red quantum dot. In this way, the additional raw material injection part 510 is formed with a pressure device 514 formed as a cylinder to apply pressure to the addition part 511 and the addition part 511 in which each additional raw material 10 is stored. In the part 511, a storage container 512 in which the additional raw material 10 is stored, and a pressure device 514 are coupled to an end thereof, and an insertion container 513 into which the other end is inserted into the storage container 512 is formed. . In addition, as the insertion container 513 is momentarily inserted into the storage container 512 by the pressure device 514, the pressure increases, and the additional raw material 10 is discharged within 1 second. In addition, the additional raw material injection unit 510 is formed by being fixed to the frame 20, and even if the insertion container 513 is inserted into the storage container 512 by the pressure device 514, the storage container 512 does not move. Only the additional raw material (10) is discharged. The additional raw material injection part 510 is connected to the mixing hole 121 formed on one side of the mixing cover 120 and penetrates the sealing member 213 to inject the additional raw material 10. Accordingly, the injection device 500 synthesizes green and red quantum dots by injecting various additional raw materials 10 and gases into the plurality of raw materials 10 to be stirred.

(Example 4-5) In Example 4-1, the apparatus for synthesizing quantum dots of the present invention includes: a storage tank 521 in which an inert gas is stored; It is formed in the storage tank 521, and a pressure gauge 522 for measuring the pressure of the gas; includes.

(Example 4-6) The quantum dot synthesis apparatus of the present invention in Example 4-5, wherein the storage tank 521 includes a pressure pump for controlling the pressure.

The present invention relates to the gas injection unit 520, specifically the gas injection unit 520 is to inject nitrogen gas and argon gas into the plurality of raw materials 10 agitated by the stirring device 200. The gas injection unit 520 is formed with a storage tank 521 in which nitrogen gas and argon gas are stored, respectively, and the storage tank 521 is formed with a pressure pump for controlling the injection of gas by adjusting the internal pressure. In addition, the storage tank 521 is provided with a pressure gauge 522 to control the amount of gas injected.

(Example 5-1) The present invention relates to a method for synthesizing a quantum dot, and a storage step (S1100) of storing a plurality of raw materials 10 in the mixing container 100 of claim 1;, after the storage step (S1100), And a stirring step (S1200) of stirring the raw material 10 by the stirring device 200 of claim 2;, a gas injection step (S1300) of injecting gas after the stirring sugar.

(Example 5-2) The quantum dot synthesis method of the present invention includes a condensing step (S1210) of condensing moisture and gas in the mixed pressure container after the stirring step (S1200) in Example 5-1. .

The present invention relates to a quantum dot synthesis method for synthesizing non-cadmium-based quantum dots with a narrow half width, and specifically, raw materials such as indium, phosphorus, zinc, selenium, and sulfur. It is to synthesize green and red quantum dots by adding the additional raw material (10) to (10) and stirring. In order to synthesize the quantum dots of the present invention, 0.5 mmol of indium (III) chloride and 0.5 mmol of indium (III) chloride as an indium source in the mixing vessel 100 formed as a three-necked flask in the storage step (S1100) and a zinc source As (zinc source), 2.6 mmol of zinc (II) iodide and 16 mmol of oleylamine are stored. The mixing container 100 is formed of a storage body 110 and a mixing cover 120, stores the raw material 10 with the mixing cover 120 open, and fastens the mixing cover 120. In the stirring step (S1200), the raw material 10 stored in the mixing container 100 is mixed, and the raw material 10 is stirred at 800 rpm or more by the stirring device 200 formed through the mixing cover 120. And in the condensing step (S1210), the internal pressure of the mixing vessel 100 is adjusted using the vacuum pump 320 of the condensing device 300, and when the pressure is less than 100 mTorr, the heating device 130 and the stirring device 200 are The temperature of the formed ejection device 220 is raised and heated at 100° C. for 1 hour or more to evaporate moisture contained in the inner wall of the mixing container 100 and the raw material 10. Moisture may be cooled by the condensing device 300, and after 1 hour elapses after the moisture is evaporated, the stirring device 200 in order to replace the atmosphere inside the mixing vessel 100 with an inert gas in the gas injection step (S1300). Gas is injected by the ejection device 220 of ). Here, the inert gas is formed of nitrogen gas or argon gas, and the inside of the mixing vessel 100 replaced with the inert gas is heated to 160°C using a heating device 130 and a jetting device 220. At this time, the stirring device 200 is stirred at 1,000 rpm or more, and inert gas is injected at 10 L/min.

Accordingly, as the plurality of raw materials 10 and gases are stirred, not only an inert atmosphere but also a bubbling effect inside the reaction solution is obtained.

(Example 6-1) The present invention relates to a method for synthesizing quantum dots, and in Example 5-1, after the gas injection step (S1300), an additional raw material 10 is injected into the stirred raw material 10 Including; raw material injection step (S1400).

(Example 6-2) In the method of synthesizing quantum dots of the present invention, in Example 6-1, green and red quantum dots are synthesized according to the raw material 10 added in the additional raw material injection step (S1400). Includes.

The present invention relates to an additional raw material injection step (S1400), and specifically, when the raw material 10 and the gas inside the mixing container 100 are stirred, the additional raw material 10 is injected to generate quantum dots. At this time, the quantum dots are composed of green and red quantum dots according to the added raw material 10. In the additional raw material injection step (S1400), a plurality of additional raw materials 10 are respectively injected by the additional raw material injection unit 510. When the mixing container 100 is heated to 160° C. in the gas injection step (S1300), 1.5 mmol of Phosphine source is injected within 1 second, and a solution of trioctylphosphine and trisdiethylaminophosphine in an 8:2 ratio is instantaneously injected at a very fast rate. . This is to obtain a relatively stable reaction rate by mixing and injecting phosphorus hydride (phosphine) having different reaction rates, since the reactivity of phosphorus hydride is very fast. .

(Example 6-3) The quantum dot synthesis method of the present invention includes an additional step of injecting an additional raw material 10 to synthesize green quantum dots in the additional raw material injection step (S1400) in Example 6-2. do.

The present invention is for synthesizing green quantum dots, and specifically, after an additional raw material injection step (S1400), by an additional step of injecting an additional raw material 10 into the mixing container 100 in which a phosphorus hydride source is injected. It creates green quantum dots. In order to synthesize such green quantum dots, the mixing vessel 100 in which a phosphorus hydride source was injected in the first additional step was maintained for 90 minutes, and then a mixture of trioctylphosphine and sulfur powder 2M Is injected into the mixing vessel 100 at a rate of 0.5 mL/min, and the temperature of the heating device 130 is raised to 190°C. Then, after maintaining at 190°C for 1 hour, the temperature of the heating device 130 is raised to 205°C and maintained at 205°C for 30 minutes. At this time, in the second additional step, a solution in which zinc stearate and octadecene are mixed at 205° C. is injected at 1 mL/min, and the temperature of the heating device 130 is raised to 230° C. When the temperature of the heating device 130 reaches 230°C, 2M of a mixture of trioctylphosphine and sulfur powder is injected into the mixing container 100 at a rate of 0.5 mL/min in the third additional step. . In addition, when the temperature of the heating device 130 is raised to 250° C., maintained for 10 minutes, and cooled to room temperature at 1° C./min, InZnP/ZnS green quantum dots are synthesized. Therefore, in the case of synthesizing green quantum dots as in the present room, precipitation, washing, and particle separation are easy because there is no oil and fat, and the synthesized preparation solution is precipitated with generally well-known ethanol. Disperse and store in (hexane), toluene, etc.

(Example 6-4) The quantum dot synthesis method of the present invention includes an additional step of injecting an additional raw material 10 to synthesize a red quantum dot in the additional raw material injection step (S1400) in Example 6-2. do.

The present invention is for synthesizing red quantum dots, and specifically, after an additional raw material injection step (S1400), by an additional step of injecting an additional raw material 10 into the mixing container 100 in which a phosphorus hydride source is injected. It creates red quantum dots. In order to synthesize these red quantum dots, the mixing vessel 100 in which the phosphorus hydride source was injected in the fourth additional step was maintained for 30 minutes, and then a mixture of trioctylphosphine and selenium powder 2M Is injected into the mixing vessel 100 at a rate of 0.5 mL/min and maintained for 30 minutes, and then the temperature of the heating device 130 is raised to 190°C. After stabilizing the reaction by holding at 190°C for 60 minutes, in the fifth additional step, a mixed solution of zinc stearate and octadecene was injected into the mixing vessel 100 at 1 mL/min, and the temperature was raised to 215°C. After making it, keep it for 30 minutes or more to ensure stable shelling. And when the heating device 130 is heated to 230°C, 2M of a mixture of trioctylphosphine and selenium powder is injected into the mixing container 100 at a rate of 0.5 mL/min in the sixth additional step. After holding for a minute, the temperature of the heating device 130 is raised to 250°C. In addition, after maintaining at 250℃ for 30 minutes, in the 7th additional step, a mixture solution of zinc stearate and octadecene was injected at 1 mL/min, and the temperature was raised to 285℃ and maintained for more than 30 minutes. Make it shelling. And in the eighth additional step, after raising the temperature of the heating device 130 to 285°C, 2M of a mixture of trioctylphosphine and selenium powder was injected into the flask at a rate of 0.5 mL/min and maintained for 30 minutes. After raising the temperature of the heating device 130 to 310 ℃. Finally, in the 9th additional step, the temperature of the mixing vessel 100 was raised to 310℃ and maintained for 30 minutes to stabilize the reaction, and then a mixed solution of zinc stearate and octadecene was injected at 1 mL/min. And hold for more than 30 minutes to achieve stable shelling and then cool to room temperature at 1°C/min to synthesize InZnP/ZnSe red quantum dots. In the case of other synthesis methods, which are also known for red quantum dots, oils and fats remain in the (prepared) crude solution, which makes it difficult to precipitate, wash, and separate particles. There is also a point. The synthesized (prepared) crude solution is precipitated with generally well-known ethanol and stored by dispersing in (chloroform) chloroform, (hexane) hexane, (toluene) toluene for stable dispersion.

(Example 6-5) The present invention is a method of synthesizing a quantum dot in Example 6-2, the characteristics of the quantum dot is 93% absolute quantum efficiency or more, half width 40nm or less in the case of green quantum dots, and absolute quantum efficiency in the case of red quantum dots. Including; those obtained by synthesizing quantum dots having a half width of less than or equal to 75% and less than or equal to 39 nm.

The quantum dots of the present invention are about synthesizing non-cadmium-based quantum dots with a quantum dot synthesis device, and a quantum dot having a half width of 40 nm or less is synthesized only by combining five elements. At this time, the result of synthesizing the quantum dots using the quantum dot synthesis device is formed as shown in the table.

Luminous wavelength Half width Absolute quantum efficiency 627.91nm 38.92nm 75.8% 627.91nm 38.71nm 77.2% 528.08nm 39.98nm 93.2% 531.07nm 40.70nm 99.5% 526.58nm 39.44nm 93.9%

As a result of synthesizing the quantum dots, in the case of green quantum dots, when the emission wavelength is 526 to 528 nm, the half width is less than 40 nm, and the absolute quantum efficiency is 93% or more. In the case of red quantum dots, when the emission wavelength is 627 nm, the half width is 39 nm or less, and is formed with an absolute quantum efficiency of 75% or more. Therefore, a quantum dot formed through a quantum dot synthesis method using a quantum dot synthesis device is formed with high quantum efficiency and a narrow half-width (FWHM), and has excellent characteristics by controlling optimal temperature, time, and concentration.

10: raw material 20: frame
30: oil 100: mixing container
110: storage body 111: sealing member
120: mixing cover 121: mixing port
130: heating device 131: coupling pipe
132: circulation pipe 133: heating device
200: stirrer 210: stirrer
211: rotation shaft 212: blade
213: sealing member 214: motor
220: ejection device 230: ejection unit
231: ejection hole 240: temperature control unit
241: temperature measuring device 242: current supply device
300: condensing device 310: condensing tank
311: discharge pipe 312: liquid space
313: storage space 320: vacuum pump
400: control device 500: injection device
510: additional raw material injection part 511: additional part
512: storage container 513: insertion container
514: pressure device 520: gas injection unit
521: storage tank 522: pressure gauge

Claims (6)

In the quantum dot synthesis device,
Mixing container 100 for mixing a plurality of raw materials 10;,
A stirring device 200 coupled to the mixing vessel 100 and stirring a plurality of raw materials 10;
A condensing device 300 for controlling the pressure inside the mixing container 100 and condensing moisture in the raw material 10;
Quantum dot synthesis apparatus including; a control device 400 for controlling the stirring device 200 and the condensing device 300.
The method according to claim 1,
The stirring device 200 is accommodated in the mixing vessel 100, a stirrer 210 rotated by a motor 214;
Quantum dot synthesis device including; a blowing device 220 surrounding the agitator 210 and ejecting gas.
The method according to claim 2,
The condensing device 300 is connected to the upper end of the mixing vessel 100, the condensation tank 310 for liquefying moisture and gas;
Quantum dot synthesis apparatus including; a vacuum pump 320 connected to the condensation tank 310 and suctioning moisture and gas from the mixing container 100.
The method of claim 3,
Quantum dot synthesis apparatus including; an injection device 500 coupled to the mixing container 100 and injecting an additional raw material 10 and an inert gas.
In the quantum dot synthesis method,
A storage step (S1100) of storing a plurality of raw materials 10 in the mixing container 100 of claim 1;,
After the storage step (S1100), a stirring step (S1200) of stirring the raw material 10 by the stirring device 200 of claim 2;,
After the stirring sugar, a gas injection step of injecting a gas (S1300); quantum dot synthesis method comprising a.
The method of claim 5,
After the gas injection step (S1300), an additional raw material injection step (S1400) of injecting an additional raw material 10 into the stirred raw material 10 (S1400); quantum dot synthesis method comprising a.

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