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Merck

571652

Sigma-Aldrich

Poly(9,9-di-n-octylfluorenyl-2,7-diyl)

light-emitting polymer

Sinónimos:

Fluorenyl polymer

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About This Item

Fórmula lineal:
C8H9(C29H40)nC8H9
MDL number:
UNSPSC Code:
12352103
PubChem Substance ID:
NACRES:
NA.23

Quality Level

form

solid

mol wt

Mw ≥20000

solubility

chloroform: soluble

λmax

365 nm

fluorescence

λex 374 nm; λem 417 nm in chloroform(lit.)

OLED device performance

ITO/PEDOT:PSS/PVK/PFO/Ca

  • Color: blue
  • Max. Luminance: 102.3 Cd/m2
  • Max. EQE: 0.17 %

ITO/PEDOT:PSS/PVK/PFO:Ir(btpy)3 (5 wt%)/Ca
  • Color: red
  • Max. Luminance: 726.5 Cd/m2
  • Max. EQE: 2.32 %

ITO/PEDOT:PSS/PVK/PFO:Iridium (III) tris(2-(4-tolyl)pyridinato-N,C2) (5 wt%)/Ca
  • Color: green
  • Max. Luminance: 3311 Cd/m2
  • Max. EQE: 2.31 %

Mw/Mn

~3.7

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General description

Poly(9,9-di-n-octylfluorenyl-2,7-diyl) (PFO) is a blue light emitting fluorescent polymer with high electroluminescence quantum yield and chemical stability. It can form an emissive layer on the surface of the optoelectronic devices.

Application

PFO can be used as a phase separated polymer that interacts with the conducting probes to define the effect of noise sources on σ-conjugated charge carriers. It is used to disperse single walled carbon nanotubes (SWCNTs), which can be further used in the fabrication of field-effect transistors (FETs).

Storage Class

11 - Combustible Solids

wgk_germany

WGK 3

flash_point_f

Not applicable

flash_point_c

Not applicable

ppe

Eyeshields, Gloves, type N95 (US)


Certificados de análisis (COA)

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A novel electrochemiluminescent biosensor based on resonance energy transfer between poly (9, 9-di-n-octylfluorenyl-2, 7-diyl) and 3, 4, 9, 10-perylenetetracar-boxylic acid for insulin detection.
Zhang H, et al.
Biosensors And Bioelectronics, 104, 65-71 (2018)
High Performance Ambipolar Field-Effect Transistor of Random Network Carbon Nanotubes.
Bisri SZ, et al.
Advanced Materials, 24(46), 6147-6152 (2012)
Nanoscale direct mapping of localized and induced noise sources on conducting polymer films.
Shekhar S, et al.
Nanoscale, 8(2), 835-842 (2016)
Effectiveness of sorting single-walled carbon nanotubes by diameter using polyfluorene derivatives.
Gao, J, et al.
Carbon, 49(1), 333-338 (2011)
Red-green-blue polymer light-emitting diode pixels printed by optimized laser-induced forward transfer
Stewart, J. S.; et al.
Applied Physics Letters, 100, 203303-203303 (2012)

Artículos

LEPs enable a wide range of important applications including sensors, flexible LED displays and lighting devices, optical pump lasers, and potentially polymer diode lasers.

LEPs enable a wide range of important applications including sensors, flexible LED displays and lighting devices, optical pump lasers, and potentially polymer diode lasers.

LEPs enable a wide range of important applications including sensors, flexible LED displays and lighting devices, optical pump lasers, and potentially polymer diode lasers.

LEPs enable a wide range of important applications including sensors, flexible LED displays and lighting devices, optical pump lasers, and potentially polymer diode lasers.

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