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

greener alternative

regioregular

Synonym(s):

P3HT

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About This Item

Linear Formula:
(C10H14S)n
CAS Number:
MDL number:
UNSPSC Code:
12352103
NACRES:
NA.23

Quality Level

mol wt

average Mw 50,000-100,000

greener alternative product characteristics

Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.

sustainability

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conductivity

~103 S/cm (when doped with iodine)

mp

238 °C
238 °C

fluorescence

λex 443 nm; λem 568 nm in chloroform

Orbital energy

HOMO 5 eV 
LUMO 3 eV 

OPV Device Performance

ITO/NiO/P3HT/PC61BM/LiF/Al

  • Short-circuit current density (Jsc): 11.3 mA/cm2
  • Open-circuit voltage (Voc): 0.64 V
  • Fill Factor (FF): 0.69
  • Power Conversion Efficiency (PCE): 5.16 %

ITO/PEDOT:PSS/P3HT:PC61BM (1:08)/Al
  • Short-circuit current density (Jsc): 9.5 mA/cm2
  • Open-circuit voltage (Voc): 0.63 V
  • Fill Factor (FF): 0.68
  • Power Conversion Efficiency (PCE): 5 %

greener alternative category

semiconductor properties

P-type (mobility=1E-4-1E-1 cm2/V·s)

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General description

Poly(3-hexylthiophene) (P3HT) is a regioregular semiconducting polymer. It is used in organic electronics primarily because of its regular end-to-end arrangement of side chain, which allows efficient p- p stacking of the conjugated backbones. On account of the alkyl side group, P3HT is rendered hydrophobic in neutral state. Solution-to-solid phase transformation and thin film formation of poly(3-hexylthiophene) (P3HT) was reported in a study.
Poly(3-hexylthiophene-2,5-diyl) (P3HT) is a poly(alkylthiophene) based semiconducting polymer that is hydrophobic at neutral state and has π-π conjugation in its backbone. It has a hole mobility is in the range of 10-3-10-1 cm2V-1s-1 and is commonly used in the development of field-effect transistors (FETs) for a wide range of applications.
We are committed to bringing you Greener Alternative Products, which adhere to one or more of The 12 Principles of Greener Chemistry. This product belongs to Enabling category of greener alternatives thus aligns with "Design for energy efficency". Hole transport organic materials allow perfect energy level alignment with the absorber layer and therefore efficient charge collection, are prone to degradation in ambient conditions.Click here for more information.

Application

For the characterization and solid-state properties of this polymer, see J. Am. Chem. Soc. .
P3HT, an electron donor that acts as a semiconducting active layer in combination with an electron acceptor like fullerene derivative (6,6)-phenyl C61-butyric acid methylester (PCBM), can be used to fabricate bulk heterojunction (HJT) based organic solar cells (OSCs). Volatile organic compounds (VOCs)and electric sensor devices can be developed by using Langmuir-Schaefer (LS) films of P3HT and poly(3-octylthiophene)(P3OT). It can also be used with polystyrene to process a nano-scaled polymeric coating through spray coating onto carbon nanotube (CNT) powders.
Poly(3-hexylthiophene-2,5-diyl) may be used to fabricate ZnO nanowire arrays based photodiode. Regio- regular poly(3-hexylthiophene-2,5-diyl) may find extensive use as a semiconducting layer in organic thin film field effect transistor (FETs).
Rechargeable battery electrodes, electrochromic devices, chemical and optical sensors, light-emitting diodes, microelectrical amplifiers, field-effect transistors and non-linear optical materials.

Features and Benefits

Greater than 90% head-to-tail regiospecific conformation.
Good processibility, environmental stability and electroactivity.

Packaging

Packaged in glass bottles

Legal Information

Product of Rieke Metals, Inc.
Rieke is a registered trademark of Rieke Metals, Inc.

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable

Personal Protective Equipment

dust mask type N95 (US), Eyeshields, Gloves

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Organic solar cells using plasmonics of Ag nanoprisms.
Noh HS, et al.
Organic Electronics, 14(1), 278-285 (2013)
Langmuir-Schaefer films of regioregular polythiophene derivatives as VOCs sensors.
Oliveira V, et al.
Materials Chemistry and Physics, 217(1), 421-426 (2018)
Carbon nanotube thermal interfaces enhanced with sprayed on nanoscale polymer coatings.
Taphouse JH, et al.
Nanotechnology, 24(10), 105401-105401 (2013)
Dependence of Charge Separation Efficiency on Film Microstructure in Poly(3-hexylthiophene-2,5-diyl): [6,6]-Phenyl-C61 Butyric Acid Methyl Ester Blend Films
Keivanidis PE, et al.
The Journal of Physical Chemistry Letters, 1, 734?738-734?738 (2010)
High-performance, stable and low-cost mesoscopic perovskite (CH3 NH3 PbI3) solar cells based on poly (3-hexylthiophene)-modified carbon nanotube cathodes.
Zheng X, et al.
Frontiers of Optoelectronics, 9(1), 71-80 (2016)

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