LIGHT EMITTING DEVICE AND METHOD OF MANUFACTURING METHOD THEREOF AND THIN FILM FORMING APPARATUS
First Claim
1. A method of manufacturing a light emitting device, said method comprising the steps of:
- forming a thin film transistor over a substrate;
forming a first conductive film over the thin film transistor by vacuum evaporation in a chamber selected from a first set of chambers connected to a first transferring chamber;
forming a second conductive film over the first conductive film by vacuum evaporation in a chamber selected from the first set of chambers;
transferring the substrate after forming the second conductive film to a second transferring chamber connected to a second set of chambers while maintaining the vacuum state,forming an organic film over the second conductive film by vacuum evaporation in at least one of the chambers selected from the second set of chambers;
transferring the substrate after forming the organic film to the first transferring chamber while maintaining the vacuum state,forming a passivation film over the organic film by vacuum evaporation in a chamber selected from the first set of chambers; and
forming a light transmissive conductive film over the passivation film by sputtering in a chamber selected from the first set of chambers,wherein each of the first conductive film, the second conductive film, and the organic film is formed into a pattern using a mask,wherein the light transmissive conductive film comprises indium oxide and zinc oxide,wherein the step of forming the first conductive film through the step of forming the light transmissive conductive film are conducted continuously without exposing the substrate to an outside air, andwherein the first transferring chamber and the second transferring chamber are connected.
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Abstract
A method of manufacturing a light emitting device of upward emission type and a thin film forming apparatus used in the method are provided. A plurality of film forming chambers are connected to a first transferring chamber. The plural film forming chambers include a metal material evaporation chamber, an EL layer forming chamber, a sputtering chamber, a CVD chamber, and a sealing chamber. By using this thin film forming apparatus, an upward emission type EL element can be fabricated without exposing the element to the outside air. As a result, a highly reliable light emitting device is obtained.
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Citations
34 Claims
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1. A method of manufacturing a light emitting device, said method comprising the steps of:
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forming a thin film transistor over a substrate; forming a first conductive film over the thin film transistor by vacuum evaporation in a chamber selected from a first set of chambers connected to a first transferring chamber; forming a second conductive film over the first conductive film by vacuum evaporation in a chamber selected from the first set of chambers; transferring the substrate after forming the second conductive film to a second transferring chamber connected to a second set of chambers while maintaining the vacuum state, forming an organic film over the second conductive film by vacuum evaporation in at least one of the chambers selected from the second set of chambers; transferring the substrate after forming the organic film to the first transferring chamber while maintaining the vacuum state, forming a passivation film over the organic film by vacuum evaporation in a chamber selected from the first set of chambers; and forming a light transmissive conductive film over the passivation film by sputtering in a chamber selected from the first set of chambers, wherein each of the first conductive film, the second conductive film, and the organic film is formed into a pattern using a mask, wherein the light transmissive conductive film comprises indium oxide and zinc oxide, wherein the step of forming the first conductive film through the step of forming the light transmissive conductive film are conducted continuously without exposing the substrate to an outside air, and wherein the first transferring chamber and the second transferring chamber are connected. - View Dependent Claims (3, 4, 5, 6, 21, 25, 30)
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2. A method of manufacturing a light emitting device, said method comprising the steps of:
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forming a thin film transistor over a substrate; forming a first conductive film over the thin film transistor by vacuum evaporation in a chamber selected from a first set of chambers connected to a first transferring chamber; forming a second conductive film over the first conductive film by vacuum evaporation in a chamber selected from the first set of chambers; transferring the substrate after forming the second conductive film to a second transferring chamber connected to a second set of chambers while maintaining the vacuum state, forming an organic film over the second conductive film by vacuum evaporation in at least one of the chambers selected from the second set of chambers; transferring the substrate after forming the organic film to the first transferring chamber while maintaining the vacuum state, forming a first passivation film over the organic film by vacuum evaporation in a chamber selected from the first set of chambers; forming a light transmissive conductive film over the first passivation film by sputtering in a chamber selected from the first set of chambers; and forming a second passivation film on the light transmissive conductive film in a chamber selected from the first set of chambers, wherein each of the first conductive film, the second conductive film, and the organic film is formed into a pattern using a mask, wherein the light transmissive conductive film comprises indium oxide and zinc oxide, wherein the step of forming the first conductive film through the step of forming the second passivation film are conducted continuously without exposing the substrate to an outside air, and wherein the first transferring chamber and the second transferring chamber are connected. - View Dependent Claims (7, 8, 9, 22, 26, 29, 31, 34)
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10. A method of manufacturing a light emitting device, said method comprising the steps of:
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forming a thin film transistor over a substrate; forming a first conductive film over the thin film transistor by vacuum evaporation in a chamber selected from a first set of chambers connected to a first transferring chamber; forming a second conductive film over the first conductive film by vacuum evaporation in a chamber selected from the first set of chambers; transferring the substrate after forming the second conductive film to a second transferring chamber connected to a second set of chambers while maintaining the vacuum state, forming an organic film over the second conductive film by vacuum evaporation in at least one of the chambers selected from the second set of chambers; transferring the substrate after forming the organic film to the first transferring chamber while maintaining the vacuum state, forming a passivation film over the organic film by vacuum evaporation in a chamber selected from the first set of chambers; forming a light transmissive conductive film over the passivation film by sputtering in a chamber selected from the first set of chambers; and sealing the substrate with a thermally curable resin or a photosensitive resin in the first set of chambers, wherein each of the first conductive film, the second conductive film, and the organic film is formed into a pattern using a mask, wherein the light transmissive conductive film comprises indium oxide and zinc oxide, wherein the step of forming the first conductive film through the step of sealing the substrate are conducted continuously without exposing the substrate to an outside air, and wherein the first transferring chamber and the second transferring chamber are connected. - View Dependent Claims (11, 12, 13, 14, 23, 27, 32)
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15. A method of manufacturing a light emitting device, said method comprising the steps of:
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forming a thin film transistor over a substrate; forming a first conductive film over the thin film transistor by vacuum evaporation in a chamber selected from a first set of chambers connected to a first transferring chamber; forming a second conductive film over the first conductive film by vacuum evaporation in a chamber selected from the first set of chambers; transferring the substrate after forming the second conductive film to a second transferring chamber connected to a second set of chambers while maintaining the vacuum state, forming an organic film over the second conductive film by vacuum evaporation in at least one of the chambers selected from the second set of chambers; transferring the substrate after forming the organic film to the first transferring chamber while maintaining the vacuum state; forming a first passivation film over the organic film by vacuum evaporation in a chamber selected from the first set of chambers; forming a light transmissive conductive film over the first passivation film by sputtering in a chamber selected from the first set of chambers; forming a second passivation film on the light transmissive conductive film in a chamber selected from the first set of chambers; and sealing the substrate with a thermally curable resin or a photosensitive resin in the first set of chambers, wherein each of the first conductive film, the second conductive film, and the organic film is formed into a pattern using a mask, wherein the light transmissive conductive film comprises indium oxide and zinc oxide, wherein the step of forming the first conductive film through the step of sealing the substrate are conducted continuously without exposing the substrate to an outside air, and wherein the first transferring chamber and the second transferring chamber are connected. - View Dependent Claims (16, 17, 18, 19, 20, 24, 28, 33)
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Specification