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906921

Sigma-Aldrich

PQT-12

Synonym(s):

Poly(3,3′′′-didodecyl[2,2′:5′,2′′:5′′,2′′′-quaterthiophene]-5,5′′′-diyl), Poly(4,4′′-didodecyl[2,2′:5′,2′′:5′′,2′′′-quaterthiophene]-5,5′′′-diyl)

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About This Item

Linear Formula:
(C40H56S4)n
CAS Number:
UNSPSC Code:
12162002
NACRES:
NA.23

description

Band gap: 2.27 eV
Eox = 0.45 V
Solution processable (chloroform, chlorobenzene, etc)
LIFT transferable

form

solid

mol wt

Mw 10,000-25,000 by GPC

color

brown

solubility

>5 mg/mL (in CHCl3)

λmax

473 nm in toluene

Orbital energy

HOMO -5.24 eV 
LUMO -2.97 eV 

storage temp.

15-25°C

Application

PQT-12 can be employed as the semiconductor material in organic field-effect transistors(OFETs). Its high charge carrier mobility, good film-forming properties, and stability make it useful for the channel layer, enabling efficient electronic device performance. The conjugated polymer structure and charge storage capability of PQT-12 make it potentially useful for energy storage applications such as super capacitors and batteries.
PQT-12 exhibits strong absorption in the visible and near-infrared regions of the spectrum. This property enables effective utilization of a broad range of solar radiation, enhancing the light-harvesting capability and efficiency of OPV devices. PQT-12 can serve as the donor material in the active layer of OPV devices. PQT-12′s unique properties and charge transport characteristics contribute to the development of low voltage and low-power OFET devices. Its high charge carrier mobility allows for better device performance with lower operational voltages.

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable


Certificates of Analysis (COA)

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Modification of the Poly(bisdodecylquaterthiophene) Structure for High and Predominantly Nonionic Conductivity with Matched Dopants
Hui Li, et al.
Journal of the American Chemical Society, 139,, 11149- 11157 (2017)
Highly Flexible Organic Nanofiber Phototransistors Fabricated on a Textile Composite for Wearable Photosensors
Lee M Y, et al.
Advances in Functional Materials, (2016), 1445-1445 (2016)
Highly flexible chemical sensors based on polymer nanofiber field-?effect transistors
Kweon O Y, et al
Journal of Material Chemistry C (2019)
20 megahertz operation of organic nanodiodes.
Majewski L A, et al.
Physica Status Solidi B, 253(8), 1507-1510 (2016)
Self-assembly of regioregular poly (3,3'''-didodecylquarterthiophene) in chloroform and study of its junction properties
Singh M K, et al.
Journal of Chemical and Pharmaceutical Sciences , 217, 12-17 (2017)

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Small molecular weight organic semiconductors are promising for flexible transistor applications in next-gen soft electronics.

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