Semiconductor device manufacturing: process – Making device or circuit emissive of nonelectrical signal – Including integrally formed optical element
Reexamination Certificate
2002-09-30
2004-11-09
Wilczewski, Mary (Department: 2822)
Semiconductor device manufacturing: process
Making device or circuit emissive of nonelectrical signal
Including integrally formed optical element
C438S151000, C438S458000, C438S459000, C438S977000
Reexamination Certificate
active
06815240
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a thin film semiconductor device and a manufacturing method thereof. More specifically, it relates to a constitution of a substrate for integrating and forming a thin film transistor thereon.
2. Description of the Related Art
Generally, in a thin film semiconductor device, a thin film transistor is integrated and formed on an insulation substrate, for example, made of glass. The thin film transistor has to be formed through steps, such as CVD (Chemical Vapor Deposition), cleaning and heat treatment. Since different steps are successively applied, the substrate has to be transported between the stages for each of the processes. If the substrate is deformed, such as by warping, automatic transportation using a manipulator is not possible. Therefore, a substrate for use in the thin film semiconductor device requires heat resistance capable of enduring the temperature for forming the thin film transistor. Further, it is necessary to have a thickness of a predetermined level or more, so as not to cause warping deformation during transportation.
On the other hand, products using the thin film semiconductor device as a component can include, for example, an active matrix type liquid crystal display. When a liquid crystal display is used for portable equipment, the thin film semiconductor device is required for a structure reduced in weight and of less fracture. Therefore, manufacturing conditions required for the substrate and conditions for the products do not often agree with each other, and there is a market complaint against the products. As described above, use of glass for the substrate is suitable in view of the manufacturing conditions such as heat resistance. However, in view of the product conditions, the glass substrate has the drawbacks of heavy weight and easy cracking. For the liquid display used in portable electronic equipment, such as palm-top computers or portable telephones, it is desirable for the material to have a cost that is as low as possible, to be reduced in the weight, to endure some deformation and to crack less upon dropping. Actually, the glass substrate is heavy, sensitive to deformation and likely to be broken by dropping. That is, there is a difference between restrictions due to manufacturing conditions and preferred characteristics required for the products, and it is difficult to satisfy both of the conditions or characteristics, and this is left still unresolved.
Various countermeasures have been proposed so far in order to overcome such problems. For example, it has been attempted to use a plastic substrate, for example, by lowering the process temperature for the thin film transistor as much as possible. However, the plastic substrate suffers from a larger deformation compared with the glass substrate, and no satisfactory products have been obtained at present (N. D. Young, et al., Euro Display '96 Digest, 555, 1996). Further, there has been proposed a countermeasure of once forming a thin film transistor to a provisional substrate and then transferring the same to another substrate, which is disclosed, for example, in Japanese Published Unexamined Patent Application Hei
11-243209
. However, this method is complicated in the transfer step and involves a problem in view of the productivity. Further, since the provisional substrate used for forming the thin film transistor and a substrate for mounting the thin film transistor as a product are different, characteristics are liable to fluctuate in the thin film transistor in view of the problems, such as stresses and the like.
SUMMARY OF THE INVENTION
For overcoming the foregoing problems in the prior art, this invention provides a method of manufacturing a thin film semiconductor device comprising:
a preparatory step of preparing a manufacturing substrate having the characteristic of being capable of enduring the process for forming a thin film transistor and a product substrate having the characteristic of being suitable to direct mounting of the thin film transistor;
a bonding step of bonding the manufacturing substrate to the product substrate for supporting the product substrate at the back;
a formation step of forming at least a thin film transistor to the surface of the product substrate in a state reinforced with the manufacturing substrate; and
a separation step of separating the manufacturing substrate after use from the product substrate.
Preferably, in the preparatory step, a manufacturing substrate made of an inorganic material and a product substrate made of an organic material are prepared. Optionally, in the formation step, a moisture proof film is formed on the surface of a product substrate made of an organic material and then a thin film transistor is formed thereon. Further, in the bonding step, the manufacturing substrate is bonded to the product substrate by using adhesives coated in the releasable manner.
Further, this invention provides a method of manufacturing a liquid crystal display device comprising:
a preparatory step of preparing a manufacturing substrate having the characteristic of being capable of enduring the process for forming a thin film transistor and a product substrate having the characteristic of being suitable to direct mounting of the thin film transistor;
a bonding step of bonding the manufacturing substrate to the product substrate for supporting the product substrate at the back;
a formation step of forming at least a thin film transistor and a pixel electrode to the surface of the product substrate in a state reinforced with the manufacturing substrate;
a separation step of separating the manufacturing substrate after use from the product substrate; and
an assembling step of joining an opposing substrate previously formed with opposing electrodes at a predetermined distance to the product substrate formed with the pixel electrodes before or after the separation step, and injecting liquid crystals in the gap.
Furthermore, this invention provides a method of manufacturing an electroluminescence display device comprising:
a preparatory step of preparing a manufacturing substrate having the characteristic of being capable of enduring the process for forming a thin film transistor and a product substrate having the characteristic suitable to direct mounting of the thin film transistor;
a bonding step of bonding the manufacturing substrate to the product substrate for supporting the product substrate at the back;
a formation step of forming at least a thin film transistor and an electroluminescence device to the surface of the product substrate in a state reinforced with the manufacturing substrate; and
a separation step of separating the manufacturing substrate after use from the product substrate.
According to this invention, in the preparatory step before forming the thin film transistor, a manufacturing substrate, for example, made of glass is previously appended to a product substrate, for example, made of a plastic material for reinforcement. Subsequently, a thin film transistor is integrated and formed on a product substrate made, for example, of a plastic material. In this case, since the product substrate made, for example, of a plastic material or the like is backed by the manufacturing substrate made, for example, of glass, it has a rigidity as a whole capable of enduring transportation by manipulators. Then, at the instant the manufacturing process for the thin film transistor has been completed, the manufacturing substrate after use is separated from the product substrate. Finally, the thin film transistor is supported only by a thin and lightweight product substrate. An active matrix type liquid crystal display using a plastic substrate is suitable for application use to portable equipment.
REFERENCES:
patent: 6136624 (2000-10-01), Kemmochi et al.
patent: 2002/0048869 (2002-04-01), Gosain et al.
patent: 2002/0115263 (2002-08-01), Worth et al.
patent: 11-243209 (1999-09-01), None
Kananen Ronald P.
Rader & Fishman & Grauer, PLLC
Sony Corporation
Thomas Toniae M.
Wilczewski Mary
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