Manufacturing method and manufacturing system of perovskite color conversion film

Abstract

A manufacturing method and a manufacturing system of perovskite color conversion film are provided. The manufacturing method includes: manufacturing perovskite plastic wires; providing a substrate with areas to be printed; and heating and printing the plastic wires on the areas to be printed of the substrate by used of fused deposition modeling 3D printing technology, to formed a perovskite color conversion film.

Claims

1. A method of manufacturing a perovskite color conversion film, comprising: manufacturing perovskite plastic wires; providing a substrate with areas to be printed; and heating and printing the perovskite plastic wires on the areas to be printed of the substrate by using fused deposition modeling 3D printing technology, to form the perovskite color conversion film; wherein the step of manufacturing the perovskite plastic wires comprises: mixing perovskite powders with carrier particles, wherein a melting point of the carrier particles is lower than a melting point of the perovskite powders; heating the perovskite powders mixed with the carrier particles, allowing the carrier particles to be melted to form molten carriers; and extruding a mixture of the molten carriers and the perovskite powders, to form the perovskite plastic wires.

2. The method of manufacturing the perovskite color conversion film according to claim 1, wherein material of the carrier particles is polymer materials.

3. The method of manufacturing the perovskite color conversion film according to claim 2, wherein the material of the carrier particles comprises ethylene wax.

4. The method of manufacturing the perovskite color conversion film according to claim 1, wherein the step of heating and printing the perovskite plastic wires on the areas to be printed of the substrate by using fused deposition modeling 3D printing technology, to form the perovskite color conversion film comprises: obtaining a preformed 3D model of the perovskite color conversion film; heating and melting the perovskite plastic wires; and printing the melted perovskite plastic wires on the areas to be printed of the substrate to form the perovskite color conversion film according to the preformed 3D model of the perovskite color conversion film.

5. The method of manufacturing the perovskite color conversion film according to claim 4, wherein the step of printing the melted perovskite plastic wires on the areas to be printed of the substrate to form the perovskite color conversion film according to the preformed 3D model of the perovskite color conversion film comprises: obtaining a shape and a height of the preformed 3D model of the perovskite color conversion film; setting a thickness of a printing layer, a number of printing layers, and a printing path according to the shape and the height of the preformed 3D model of the perovskite color conversion film; and printing the melted perovskite plastic wires layer by layer on the areas to be printed of the substrate to form the perovskite color conversion film according to the thickness of the printing layer, the number of printing layers, and the printing path.

6. The method of manufacturing the perovskite color conversion film according to claim 4, wherein heating temperature of the perovskite plastic wires ranges from 70° C. to 100° C.

7. The method of manufacturing the perovskite color conversion film according to claim 1, wherein the areas to be printed comprise a plurality of subareas distributed in an array; and the perovskite color conversion film in each of the subareas comprises a red conversion film, a green conversion film, or a blue conversion film.

8. The method of manufacturing the perovskite color conversion film according to claim 7, wherein color of the perovskite color conversion film among each of the subareas is the same.

9. The method of manufacturing the perovskite color conversion film according to claim 7, wherein material of the perovskite powders corresponding to the red conversion film comprises CH.sub.3NH.sub.3Pb(Br/I).sub.3 or CsPb(Br/I).sub.3; material of the perovskite powders corresponding to the green conversion film comprises CH.sub.3NH.sub.3PbBr.sub.3 or CsPbBr.sub.3; and material of the perovskite powders corresponding to the blue conversion film comprises CH.sub.3NH.sub.3Pb(Br/Cl).sub.3 or CsPb(Br/Cl).sub.3.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the present invention. Other drawings can also be obtained from those skilled persons in the art based on these drawings without paying any creative effort.

(2) FIG. 1 is a schematic view of a manufacturing method of perovskite color conversion film according to one embodiment of the present invention.

(3) FIG. 2 is a schematic view of the perovskite color conversion film and a substrate according to one embodiment of the present invention.

(4) FIG. 3 is a schematic view of another perovskite color conversion film and a substrate according to one embodiment of the present invention.

(5) FIG. 4 is a schematic view of an extruding machine according to one embodiment of the present invention.

(6) FIG. 5 is a schematic view of a 3D printer according to one embodiment of the present invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

(7) The specific structure and detail function disclosed herein are merely represented, and the purpose thereof is used to describe the exemplary embodiment. However, the present disclosure may be implemented through multiple alternative forms, which may not be construed as being limited to the embodiments described herein.

(8) The description of each of the following embodiments is provided with reference to the appending drawings to exemplify the specific embodiment that may be implemented. The terms, such as “center,” “horizontal,” “upper,” “lower,” “left,” “right,” “vertical,” “level,” “top,” “bottom,” “inside,” “outside,” are based on the orientation or positional relationship shown in the drawings, and the terms are merely for convenience of description of the present invention, and thus they are not to be construed as limiting. Moreover, terms “the first,” “the second,” are used to describe the objective, rather than construing as indicating or implying the relative importance or implying the amount of indicated technical features. As such, limited features of “the first,” “the second,” may indicated or imply comprise one or more technical features. In the description of the present application, unless otherwise indicated, “a plurality of” means two or more than two. Furthermore, the term “comprise” and any synonym intends to cover containing without exclusive.

(9) In the description of the present application, it should be noted that, unless otherwise specified and limited, terms “mounting,” “conjunction,” “connecting,” should be interpret broadly. For example, those may be fixed connection, may also be detached connection, or integrally connection; may be mechanical connection, and may also be electrical connection; may be direct connection, and may also be indirect connected via intermediary, and may be intercommunicated within two elements. A skilled person in the art may comprehensive the specific meaning of the above terms in the present disclosure.

(10) The terms described herein are merely used to describe the specific embodiment, rather than intending to limit the exemplary embodiment. Unless the context clearly indicates otherwise, the singular “one,” “one item” used herein intend to comprise plurality. It should also be understood that the terms “comprise,” and/or “contain” used herein specify the existence of stated features, integers, steps, operations, units, elements, and/or combination thereof, without excluding the existence or addition one or more other features, integers, steps, operations, units, elements, and/or combination thereof.

(11) Following embodiments in combination with drawings are used to further explain the present disclosure.

(12) Referring to FIG. 1, the embodiment of the present disclosure provides a manufacturing method of perovskite color conversion film, comprising:

(13) S101: manufacturing perovskite plastic wires.

(14) Specifically, the step S101 comprises:

(15) mixing perovskite powders with carrier particles; in one embodiment, a melting point of the carrier particle is lower than a melting point of the perovskite powders, the carrier particles is polymer materials, and specifically may be ethylene wax;

(16) heating the perovskite powders mixed with carrier particles, allowing the carrier particles to be melted to form molten carriers; and

(17) extruding a mixture of the molten carriers and the perovskite powders, to form the perovskite plastic wires.

(18) Specifically, in a process of manufacturing perovskite powders, the perovskite powders are pre-mixed with carrier particles, and molten carriers and the perovskite powder need to be further mixed well before the step of extruding the mixtures of the molten carriers and the perovskite powders to form the perovskite plastic wires.

(19) S102: Providing a substrate with areas to be printed.

(20) Specifically, referring to FIG. 2, the range 3 to be printed is disposed on the substrate 2, and the range 3 to be printed comprise a plurality of subareas 5 distributed in an array.

(21) S103: Heating and printing the plastic wires on the areas to be printed of the substrate by used of fused deposition modeling 3D printing technology, to formed a perovskite color conversion film.

(22) Specifically, the step S103 comprises:

(23) obtaining a preformed 3D model of perovskite color conversion film, and obtaining shape and height of the 3D model of perovskite color conversion film;

(24) heating and melting the perovskite plastic wires; in one embodiment, heating temperature of the perovskite plastic wires is from 70° C. to 100° C.;

(25) setting printing layer thickness, printing layers, and printing path according to the 3D model of perovskite color conversion film; and

(26) printing the melted perovskite plastic wires layer by layer on the areas to be printed of the substrate to form the perovskite color conversion film according to the printing layer thickness, printing layers, and printing path.

(27) Specifically, referring to FIG. 2, the perovskite color conversion film 4 is formed on the range 3 to be printed of the substrate 2.

(28) In the present embodiment, using fused deposition modeling 3D printing technology for manufacturing the perovskite color conversion film has properties of simple technology, easy operation, and high usage rate of raw material. Moreover, the perovskite plastic wires using polymer material with the melting point lower than the perovskite powders provides the benefit of ensuring thermal stability of the perovskite material used during the manufacturing process of the perovskite plastic wires, and ensuring the better properties of the formed perovskite color conversion film.

(29) In one embodiment, referring to FIG. 2 and FIG. 3, the areas 3 to be printed comprises a plurality of subareas 5 distributed in an array. The perovskite color conversion film 4 among each of the subareas 5 comprises red conversion film 6, green conversion film 7, or blue conversion film 8. In one embodiment, the red conversion film 6 may be excited to generate red light, the green conversion film 7 may be excited to generate green light, and the blue conversion film 8 may be excited to generate blue light. Moreover, material of the perovskite powders corresponding to the red conversion film 6 comprises CH.sub.3NH.sub.3Pb(Br/I).sub.3 or CsPb(Br/I).sub.3; material of the perovskite powders corresponding to the green conversion film 7 comprises CH.sub.3NH.sub.3PbBr.sub.3 or CsPbBr.sub.3; and material of the perovskite powders corresponding to the blue conversion film 8 comprises CH.sub.3NH.sub.3Pb(Br/Cl).sub.3 or CsPb(Br/Cl).sub.3.

(30) Specifically, unicolor (containing red R, green G, or blue B) of the perovskite color conversion film 4, and full-color (containing red R, green G, or blue B) of the perovskite color conversion film 4 may be printed based on needs. Types of the perovskite color conversion film 4 to be formed are dependent on the material of the perovskite powders of the perovskite plastic wires. For the unicolor of the perovskite color conversion film 4, one kind of material of the perovskite plastic wires is used during the whole printing process. Specifically, each of the subarea 5 may only contain the red conversion film 6, and the perovskite powders of the perovskite plastic wires used during printing are CH.sub.3NH.sub.3Pb(Br/I).sub.3 or CsPb(Br/I).sub.3. Alternatively, each of the subarea 5 may only contain the green conversion film 7, and the perovskite powders of the perovskite plastic wires used during printing are CH.sub.3NH.sub.3PbBr.sub.3 or CsPbBr.sub.3. Of course, each of the subarea 5 may only contain the blue conversion film 8, and the perovskite powders of the perovskite plastic wires used during printing are CH.sub.3NH.sub.3Pb(Br/Cl).sub.3 or CsPb(Br/Cl).sub.3. Furthermore, for the full-color perovskite color conversion film 4, thicolor of RGB perovskite color conversion film 4 may be obtained by used of different corresponding perovskite plastic wires 1 based on color requirements of different subareas 5.

(31) In the present embodiment, different colors of the perovskite color conversion film corresponding to different colors of the perovskite plastic wires may be formed by use of fused deposition modeling 3D printing technology. It is beneficial to manufacture products with different emitted colors, and it has advantages of simple technology, easy operation, and high usage rate of raw material.

(32) Referring to FIG. 4 and FIG. 5, the embodiment of the present disclosure further provides a manufacturing system of perovskite color conversion film, which comprises an extruding machine 9, a machine station 10, and a 3D printer 11. In one embodiment, the extruding machine 9 is used for manufacturing perovskite plastic wires 1, and providing the perovskite plastic wires 1 to the 3D printer 11. The machine station 10 is used for supporting a substrate 2 with areas 3 to be printed. The 3D printer 11 is placed on one side of the substrate 2 away from the machine station 10, and is used for heating and printing the plastic wires 1 on the areas 3 to be printed of the substrate 2 by used of fused deposition modeling 3D printing technology, to form perovskite color conversion film 4.

(33) Specifically, the 3D printer 11 comprises a feeding device 12, heating device 13, and a nozzle head 14. The heating device 13 is placed between the feeding device 12 and the nozzle head 14, and the nozzle head 14 is placed above the machine station 10. In one embodiment, the perovskite plastic wires 1 is added into the heating device 13 through the feeding device 12, followed by entering into the nozzle head 14 after heating and melting by the heating device 13. The perovskite plastic wires 1 is printed on the areas 3 to be printed of the substrate 2 placed on the machine station 10.

(34) Specifically, the manufacturing system of perovskite color conversion film further comprises a controlling unit 15. The controlling unit 15 is connected to the 3D printer 11, and is used for setting printing parameters of the 3D printer 11. In one embodiment, the printing parameters comprise printing layer thickness (layer thickness of monolayer), printing layers and printing path of the nozzle head 14, heating temperature of the heating device 13, and distance between the nozzle head 14 and the substrate 2.

(35) Specifically, the process of manufacturing the perovskite color conversion film 4 by the manufacturing system of perovskite color conversion film comprises:

(36) obtaining shape and height of the 3D model of perovskite color conversion film by use of the 3D model of perovskite color conversion film established by 3D modeling software;

(37) feeding the perovskite powders and the carrier particles into the extruding machine for pre-mixing, melting the carrier particles by heating, mixing the molten carriers and the perovskite powders well with a screw of the extruding machine, and finally excluding to obtain the perovskite plastic wires 1 which is then provided to the feeding device 12 of the 3D printer 11;

(38) disposing the substrate 2 with the area 3 to be printed on the machine station 10 place below the nozzle head 14;

(39) setting printing parameters of the 3D printer 11 through the controlling unit 15 according to shape and height of the 3D model of perovskite color conversion film; in one embodiment, the printing parameters contain printing layer thickness, printing layers, printing path, printing rate, heating temperature (temperature range of between 70° C. and 100° C.), and distance between the nozzle head 4 and the substrate 2; and

(40) starting the 3D printer 11, and specifically printing the heated perovskite plastic wires 1 layer by layer on the area 3 to be printed of the substrate 2 by the printing actions of the nozzle head 14, to form the perovskite color conversion film 4.

(41) Specifically, during the printing process, the nozzle head 14 is ascended a height of one printing layer thickness or dropped a height of one printing layer thickness to adjust the distance between the nozzle head 14 and the substrate 2.

(42) In the present embodiment, using fused deposition modeling 3D printing technology for manufacturing the perovskite color conversion film has properties of simple technology, easy operation, and high usage rate of raw material.

(43) In the above, the present disclosure has been described in the above preferred embodiments, but the preferred embodiments are not intended to limit the scope of the invention, and a person skilled in the art may make various modifications without departing from the spirit and scope of the application. The scope of the present application is determined by claims.