์ฝ˜ํ…์ธ ๋กœ ๊ฑด๋„ˆ๋›ฐ๊ธฐ
Merck
๋ชจ๋“  ์‚ฌ์ง„(3)

๋ฌธ์„œ

476706

Sigma-Aldrich

Polyaniline (emeraldine base)

average Mw ~10,000

๋™์˜์–ด(๋“ค):

Emeraldine base polyaniline

๋กœ๊ทธ์ธ์กฐ์ง ๋ฐ ๊ณ„์•ฝ ๊ฐ€๊ฒฉ ๋ณด๊ธฐ
๋ชจ๋“  ์‚ฌ์ง„(3)

About This Item

CAS Number:
25233-30-1
MDL number:
MFCD00241446
UNSPSC ์ฝ”๋“œ:
12352103
PubChem Substance ID:
24871293
NACRES:
NA.23

๋ถ„์ž๋Ÿ‰

average Mw ~10,000

solubility

m-cresol: soluble
DMAC: soluble
DMF: soluble
DMSO: soluble
NMP: soluble

InChI

1S/C3H4BrN3.ClH/c1-2-3(4)6-7-5-2;/h1H3,(H,5,6,7);1H

InChI key

LYCWKZFKTMHXQA-UHFFFAOYSA-N

์œ ์‚ฌํ•œ ์ œํ’ˆ์„ ์ฐพ์œผ์‹ญ๋‹ˆ๊นŒ? ๋ฐฉ๋ฌธ ์ œํ’ˆ ๋น„๊ต ์•ˆ๋‚ด

์ผ๋ฐ˜ ์„ค๋ช…

Polyaniline (PAni) emeraldine salt can be prepared by protonation of PAni emeraldine base (PAni-EB). PAni-EB forms at pH>7. Itโ€ฒs mechanism against corrosive agents has been explained in a study.
Polyaniline (emeraldine base) (PANI) is an intrinsic conductive polymer which consists of a ring structure attached with nitrogen substituted derivatives. It has an emeraldine type of oxidation state that exists in the form of its base. It exhibits high corrosion resistance and can be used in the development of electrochemical devices.

์• ํ”Œ๋ฆฌ์ผ€์ด์…˜

Polyaniline (PANI) forms a conjugating system that can be used for a variety of semiconducting applications. It is also widely used as protective coatings and hole transporting layers (HTLs) for organic electronics and chemical sensing.
The polymer acts as an anticorrosive additive. Epoxy paints may be modified using PAni-EB.

ํŠน์ง• ๋ฐ ์žฅ์ 

Undoped form of conducting polymer (non-conductive).

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Flash Point (ยฐF)

Not applicable

Flash Point (ยฐC)

Not applicable

๊ฐœ์ธ ๋ณดํ˜ธ ์žฅ๋น„

Eyeshields, Gloves, type N95 (US)

์‹œํ—˜ ์„ฑ์ ์„œ(COA)

์ œํ’ˆ์˜ ๋กœํŠธ/๋ฐฐ์น˜ ๋ฒˆํ˜ธ๋ฅผ ์ž…๋ ฅํ•˜์—ฌ ์‹œํ—˜ ์„ฑ์ ์„œ(COA)์„ ๊ฒ€์ƒ‰ํ•˜์‹ญ์‹œ์˜ค. ๋กœํŠธ ๋ฐ ๋ฐฐ์น˜ ๋ฒˆํ˜ธ๋Š” ์ œํ’ˆ ๋ผ๋ฒจ์— ์žˆ๋Š” โ€˜๋กœํŠธโ€™ ๋˜๋Š” โ€˜๋ฐฐ์น˜โ€™๋ผ๋Š” ์šฉ์–ด ๋’ค์—์„œ ์ฐพ์„ ์ˆ˜ ์žˆ์Šต๋‹ˆ๋‹ค.

์ด ์ œํ’ˆ์„ ์ด๋ฏธ ๊ฐ€์ง€๊ณ  ๊ณ„์‹ญ๋‹ˆ๊นŒ?

๋ฌธ์„œ ๋ผ์ด๋ธŒ๋Ÿฌ๋ฆฌ์—์„œ ์ตœ๊ทผ์— ๊ตฌ๋งคํ•œ ์ œํ’ˆ์— ๋Œ€ํ•œ ๋ฌธ์„œ๋ฅผ ์ฐพ์•„๋ณด์„ธ์š”.

๋ฌธ์„œ ๋ผ์ด๋ธŒ๋Ÿฌ๋ฆฌ ๋ฐฉ๋ฌธ

์ด๋ฏธ ์—ด๋žŒํ•œ ๊ณ ๊ฐ

Slide 1 of 3

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Polypyrrole doped, conductivity 30 S/cm (bulk), extent of labeling: 20 wt. % loading, composite with carbon black

Sigma-Aldrich

530573

Polypyrrole

Polypyrrole doped, conductivity 0.5-1.5 S/cm (pressed pellet, typical), extent of labeling: ~5 wt. % loading, coated on titanium dioxide

Sigma-Aldrich

578177

Polypyrrole

Poly(3-butylthiophene-2,5-diyl) regioregular

Sigma-Aldrich

495336

Poly(3-butylthiophene-2,5-diyl)

Anticorrosion performances of epoxy coatings modified with polyaniline: A comparison between the emeraldine base and salt forms
Armelin E, et al.
Progress in Organic Coatings, 65(1), 88-93 (2009)
Study of epoxy and alkyd coatings modified with emeraldine base form of polyaniline.
Armelin E, et al.
Progress in Organic Coatings, 58(4), 316-322 (2007)
Application of polyaniline (emeraldine base, EB) in polymer light-emitting devices.
Wang HL, et al.
Synthetic Metals, 78(1), 33-37 (1996)
Emeraldine Base Polyaniline as an Alternative to Poly(3,4-ethylenedioxythiophene) as a Hole-Transporting Layer
Higgins RWT, et al.
Advances in Functional Materials, 11(6), 407-402 (2001)
Suitability of emeraldine base polyaniline-PVA composite film for carbon dioxide sensing.
Irimia-Vladu M and Fergus JW
Synthetic Metals, 156(21-24), 1401-1407 (2006)
๋ชจ๋“  ๊ด€๋ จ๋œ ์„œ๋ฅ˜ ๋ณด๊ธฐ

๋ฌธ์„œ

Stretchable Electroluminescent Devices

Self-healing soft electronic materials offer potential cost savings and reduced electronic waste.

์ž์‚ฌ์˜ ๊ณผํ•™์žํŒ€์€ ์ƒ๋ช… ๊ณผํ•™, ์žฌ๋ฃŒ ๊ณผํ•™, ํ™”ํ•™ ํ•ฉ์„ฑ, ํฌ๋กœ๋งˆํ† ๊ทธ๋ž˜ํ”ผ, ๋ถ„์„ ๋ฐ ๊ธฐํƒ€ ๋งŽ์€ ์˜์—ญ์„ ํฌํ•จํ•œ ๋ชจ๋“  ๊ณผํ•™ ๋ถ„์•ผ์— ๊ฒฝํ—˜์ด ์žˆ์Šต๋‹ˆ๋‹ค..

๊ณ ๊ฐ์ง€์›ํŒ€์œผ๋กœ ์—ฐ๋ฝ๋ฐ”๋ž๋‹ˆ๋‹ค.