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Semiconductor device and method for manufacturing the same

A semiconductor and organic semiconductor technology, applied in the field of electrical conductors, can solve the problem that the electrical conductivity has not been improved, and achieve the effect of easy manufacture

Inactive Publication Date: 2010-09-08
SONY CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, in the mixture, no chemical bond is formed between the conjugated polymer and the organometallic complex, so the conductivity is not improved by this

Method used

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  • Semiconductor device and method for manufacturing the same
  • Semiconductor device and method for manufacturing the same
  • Semiconductor device and method for manufacturing the same

Examples

Experimental program
Comparison scheme
Effect test

no. 1 approach

[0082] In a first embodiment, the fine particles are linked together by a chemical reaction of the molecules of the protective film, forming a network in the conductive pathway. Each protective film molecule X-R-Y has a first functional group X at one end that can strongly bind to fine particles, and a second functional group Y at the other end. The second functional group Y of each protective film molecule X-R-Y bonded to the fine particle through the functional group X is condensed with the second functional group Y of the protective film molecule bonded to the adjacent fine particle, and the organic semiconductor molecule X-R-Y' is generated according to the following equation- R-X, to connect the grains to each other:

[0083] X-R-Y+Y-R-X→X-R-Y′-R-X+A

[0084] In the above formula, Y' represents the residue of the functional group Y, and A represents a small molecule such as water. Examples of such reactions include aldol condensation in which the second functional group...

no. 2 approach

[0131] In the second embodiment, the fine particles are connected to each other by another example of chemical reaction between molecules of the protective film, and form a network-like conductive path.

[0132] 6 is a diagram illustrating the generation of organic semiconductor molecules 12 from protective film molecules 11 so that adjacent fine particles 9 pass through the organic semiconductor molecules 12 (X-R-Y'-Z'-R B -Z'-Y'-X) Views of processes connected to each other.

[0133] One end of each protective film molecule 11 has a first functional group X capable of strongly binding to fine particles, and the other end has a second functional group Y. On the other hand, the structure of the reactive molecule B is represented as Z-R with a third functional group Z in two or more positions B -Z, which can form the above-mentioned combination with the second functional group Y.

[0134] By introducing reactive molecules B, the second functional groups Y of the protective fi...

no. 3 approach

[0139] In the third embodiment, the fine particles are connected to each other through another example of chemical reaction between molecules of the protective film, thereby forming a mesh-like conductive path.

[0140] 7 is a view illustrating a process of generating organic semiconductor molecules 12 from protective film molecules 11 so that adjacent fine particles 9 are connected to each other through the organic semiconductor molecules 12 according to the third embodiment.

[0141] One end of each protective film molecule 11 (X-R-Y) has a functional group X that can be strongly combined with a fine particle 9, and the other end has a functional group that can coordinate to a metal ion M n+ The second functional group Y. As shown in Figure 7, when introducing metal ions M n+ , the second functional group Y of the protective film molecule 11 bound to the adjacent fine particle 9 coordinates to the same metal ion M n+ , organic semiconductor molecules 12 connecting adjacent...

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Abstract

A semiconductor device. The semiconductor device includes conductor or semiconductor fine particles, and organic semiconductor molecules bonded to the fine particles to form a conductive path, the conductivity of the conductive path being controlled by an electric field. In the semiconductor device, protective film molecules bonding to the adjacent fine particles bond to each other to form the organic semiconductor molecules which connect the fine particles to each other.

Description

[0001] Cross References to Related Applications [0002] The present invention contains subject matter related to Japanese Patent Application JP2004-283913 filed in the Japan Patent Office on Sep. 29, 2004, the entire content of which is hereby incorporated by reference. technical field [0003] The present invention relates to an electrical conductor comprising a conductive path composed of fine particles of a conductor or semiconductor and organic semiconductor molecules, and a method for manufacturing the electrical conductor, a semiconductor device using the electrical conductor, and a method for manufacturing the semiconductor device method. Background technique [0004] Thin film transistors (hereinafter abbreviated as "TFTs") are widely used as switching elements in electronic circuits, especially active matrix circuits of displays and the like. [0005] Currently, most TFTs are silicon-based inorganic transistors, using either amorphous silicon (a-Si) or polycrystal...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L51/05H01L51/40H10N10/856
CPCH01L51/426H01L51/005H01L51/0545H01L51/0052H01L51/0084H01L51/0558H01L51/4213B82Y30/00Y02E10/549Y02P70/50H10K85/60H10K85/615H10K85/341H10K10/466H10K10/484H10K71/191H10K30/10H10K30/35
Inventor 保原大介近藤真一郎
Owner SONY CORP