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Thermoelectric conversion material, thermoelectric conversion element, article for thermoelectric power generation using thermoelectric conversion element, and power supply for sensors using thermoelectric conversion element

A thermoelectric conversion material and thermoelectric conversion technology, which are applied in the manufacture/processing of thermoelectric devices, and lead wire materials of thermoelectric device junctions, etc., can solve the problems of complex and harmful processing technology, and achieve the effect of high thermoelectric potential and performance maintenance.

Inactive Publication Date: 2015-09-16
FUJIFILM CORP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0009] Among thermoelectric conversion materials, since good thermoelectric conversion performance is required, the processing technology for thermoelectric conversion elements is complicated, and sometimes expensive and harmful substances are included, but inorganic materials are mainly used in practical use at present.

Method used

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  • Thermoelectric conversion material, thermoelectric conversion element, article for thermoelectric power generation using thermoelectric conversion element, and power supply for sensors using thermoelectric conversion element
  • Thermoelectric conversion material, thermoelectric conversion element, article for thermoelectric power generation using thermoelectric conversion element, and power supply for sensors using thermoelectric conversion element
  • Thermoelectric conversion material, thermoelectric conversion element, article for thermoelectric power generation using thermoelectric conversion element, and power supply for sensors using thermoelectric conversion element

Examples

Experimental program
Comparison scheme
Effect test

preparation example Construction

[0316]

[0317]The thermoelectric conversion material of the present invention can be produced by mixing the above-mentioned components. Preferably, it is prepared by adding and mixing a nano conductive material and a conductive polymer containing at least the structure represented by the above general formula (1) as a repeating structure to a solvent, and dissolving or dispersing each component. At this time, among the components in the thermoelectric conversion material, it is preferable that the nano-conductive material is in a dispersed state, and other components such as a conductive polymer are in a dispersed or dissolved state, and it is more preferable that components other than the nano-conductive material are in a dissolved state. When the components other than the nano-conductive material are in a dissolved state, the effect of suppressing the decrease in electrical conductivity can be obtained through the crystal grain boundaries, which is preferable. It should b...

Synthetic example 1

[0360] Synthesis Example 1: Synthesis of Conductive Polymer 1

[0361] 4-({4-[(4-Hydroxyphenyl)-m-tolylamino]phenyl}-m-tolylamino)phenol (6 mmol) was mixed with 4,4'-difluorobenzophenone (6 mmol) was dissolved in 80 ml of NMP (N-methylpyrrolidone), potassium carbonate (48 mmol) was added, and the mixture was reacted at 140° C. for 20 hours in a nitrogen atmosphere. After cooling naturally, 4 ml of acetic acid was added to the reaction liquid, poured into methanol, and the obtained solid was filtered and washed with water. After drying under reduced pressure at 60° C., the solid was dissolved in chloroform, poured into methanol, and reprecipitated. The resulting solid was filtered off, suspended and washed with acetone, and filtered to obtain a conductive polymer 1 (4 g) composed of repeating units shown below. The weight average molecular weight (Mw) of this conductive polymer was 15,000. The molecular weight was determined by GPC measurement using THF as a solvent and usin...

Synthetic example 2

[0364] Synthesis Example 2: Synthesis of Conductive Polymer 2

[0365] 4-n-butylaniline (2g), N,N-bis(4-bromophenyl)aniline (4g), sodium tert-butoxide (1.5g) and toluene (30ml) were put into the reaction vessel, and the system Nitrogen replacement was performed sufficiently, and the mixture was heated to 65°C. Tris(dibenzylideneacetone)dipalladium chloroform complex (40 mg) and 60 mg of tri-tert-butylphosphine were added thereto, and a heating-reflux reaction was carried out for 4 hours. The reaction solution was naturally cooled, poured into 500 mL of ethanol, and the precipitated solid was filtered out. The obtained solid was dissolved in chloroform, and reprecipitated with 500 mL of ethanol. After filtration, it was suspended with acetone and filtered to obtain a conductive polymer 2 (4 g) composed of repeating units shown below. The weight average molecular weight (Mw) of this conductive polymer was 23,000.

[0366] 【Chemical 35】

[0367] Conductive Polymer 2

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Abstract

A thermoelectric conversion element (1) which comprises, on a base (12), a first electrode (13), a thermoelectric conversion layer (14) and a second electrode (15), and which contains, in the thermoelectric conversion layer (14), a nanoscale conductive material and a polymer that contains at least a structure represented by general formula (1) as a repeating unit; an article for thermoelectric power generation and a power supply for sensors, each of which uses this thermoelectric conversion element (1); and a thermoelectric conversion material which contains the above-described polymer and a nanoscale conductive material. In general formula (1), each of Ar11 and Ar12 represents an arylene group or a heteroarylene group; Ar13 represents an aryl group or a heteroaryl group; each of R11, R12 and R13 represents a substituent, and in this connection, R11 and R12, R11 and R13 or R12 and R13 may combine together to form a ring; L represents a single bond or a linking group that is represented by one of formulae (l-1)-(l-4); each of n11, n12 and n13 represents an integer of 0-4; and n1 represents an integer of 5 or more. In the linking group, each of Ar14 and Ar16 represents an arylene group or a heteroarylene group; Ar15 represents an aryl group or a heteroaryl group; each of R14-R16 represents a substituent, and in this connection, R14 and R12, R15 and R12, R16 and R12, or R15 and R16 may combine together to form a ring; each of n14-n16 represents an integer of 0-4; X1 represents an arylene carbonyl arylene group or an arylene sulfonyl arylene group; and X2 represents an arylene group, a heteroarylene group or a linking group that is a combination of an arylene group and a heteroarylene group. AA General formula (1)

Description

【Technical field】 [0001] The present invention relates to a thermoelectric conversion material, a thermoelectric conversion element, an article for thermoelectric generation using the same, and a power source for a sensor. 【Background technique】 [0002] A thermoelectric conversion material capable of mutual conversion of heat energy and electric energy is used in a thermoelectric conversion element such as a thermoelectric generation element or a Peltier element. Thermoelectric power generation using thermoelectric conversion materials or thermoelectric conversion elements can directly convert heat energy into electricity without moving parts, and is being used in watches that work with body temperature, power supplies for remote areas, and space power supplies. [0003] As one of indexes for evaluating the thermoelectric conversion performance of a thermoelectric conversion element, there is a dimensionless performance index ZT (hereinafter sometimes simply referred to as ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01L35/24C08G73/00C08L79/00H01L35/22
CPCC08G73/026H01L35/34H01L35/24H01L35/22C08G73/024C08L79/02H10N10/856H10N10/855H10N10/01
Inventor 野村公笃西尾亮林直之丸山阳一
Owner FUJIFILM CORP