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MEH-PPV average Mn 70,000-100,000 | MEH-PPV average Mn 70,000-100,000 | 138184-36-8

average Mn 70,000-100,000

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Synonym(s):
Poly[2-methoxy-5-(2-ethylhexyloxy)-1,4-phenylenevinylene], MEH-PPV
Linear Formula:
(C18H28O2)n
CAS Number:
MDL number:
NACRES:
NA.23

description

Band gap: 2.3 eV

Quality Level

mol wt

average Mn 70,000-100,000

fluorescence

λex 495 nm; λem 554 nm in toluene

Orbital energy

HOMO -5.3 eV 
LUMO -3 eV 

OLED Device Performance

ITO/PEDOT:PSS/MEH-PPV/Al

  • Color: orange-red
  • Max. Luminance: 220 Cd/m2
  • Max. EQE: 0.3 %
  • Turn-On Voltage: 3.8 V

ITO/PEDOT:PSS/MEH-PPV/PBO/Al
  • Color: orange-red
  • Max. Luminance: 970 Cd/m2
  • Max. EQE: 1.9 %
  • Turn-On Voltage: 2.9 V

ITO/PEDOT:PSS/MEH-PPV/PBZT/Al
  • Color: orange-red
  • Max. Luminance: 1400 Cd/m2
  • Max. EQE: 2.5 %
  • Turn-On Voltage: 2.8 V

OPV Device Performance

ITO/MEH-PPV/BBL/Al

  • Short-circuit current density (Jsc): 1.98 mA/cm2
  • Open-circuit voltage (Voc): 0.93 V
  • Fill Factor (FF): 0.47
  • Power Conversion Efficiency (PCE): 1.1 %

ITO/MEH-PPV:PC61BM(1:4)/Ca
  • Short-circuit current density (Jsc): 2 mA/cm2
  • Open-circuit voltage (Voc): 0.8 V
  • Fill Factor (FF): 0.25
  • Power Conversion Efficiency (PCE): 1.5 %

storage temp.

2-8°C

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This Item
529581920428920401
description

Band gap: 2.3 eV

description

-

description

-

description

-

mol wt

average Mn 70,000-100,000

mol wt

-

mol wt

average Mn 1,000 (by NMR)

mol wt

average Mn 1,000 (by NMR)

fluorescence

λex 495 nm; λem 554 nm in toluene

fluorescence

-

fluorescence

-

fluorescence

-

orbital energy

HOMO -5.3 eV 

orbital energy

-

orbital energy

-

orbital energy

-

OLED device performance

ITO/PEDOT:PSS/MEH-PPV/Al

  • Color: orange-red
  • Max. Luminance: 220 Cd/m2
  • Max. EQE: 0.3 %
  • Turn-On Voltage: 3.8 V

OLED device performance

-

OLED device performance

-

OLED device performance

-

General description

Light-emitting conjugated polymer.

Application

Conducting polymer in solar cells and carbon nanotube OLEDs. Useful in producing bright and efficient white polymeric light emitting diodes.
Filter before application.

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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Michael Morgen et al.
Pharmaceutical research, 30(1), 257-268 (2012-09-22)
To evaluate using cationic polymeric nanoparticles that interact with hyaluronate to form ionically cross-linked hydrogels to increase the intra-articular retention time of osteoarthritis drugs in the synovial cavity. In vitro tests included nanoparticle release from cross-linked hydrogels using syringe and
Polybenzobisazoles Are Efficient Electron Transport Materials for Improving the Performance and Stability of Polymer Light-Emitting Diodes
Jenekhe, S. A.; et al.
Chemistry of Materials, 14, 4775 - 4780 (2002)
Electrochemical In-Situ Conductivity Measurements for Thin Film of Li1-xMn2O4 Spinel
Nishizawa, M.; et al.
Chemistry of Materials, 12, 1367-1371 (2000)
Cristina Consani et al.
The Journal of chemical physics, 142(21), 212429-212429 (2015-06-08)
Understanding the effects of aggregation on exciton relaxation and energy transfer is relevant to control photoinduced function in organic electronics and photovoltaics. Here, we explore the photoinduced dynamics in the low-temperature aggregated phase of a conjugated polymer by transient absorption
Exciton harvesting, charge transfer, and charge-carrier transport in amorphous-silicon nanopillar/polymer hybrid solar cells
Gowrishankar, V.; Scully, S.; Chan, A.; et al.
Journal of Applied Physics, 103, 064511-064511 (2008)

Articles

PCBM-based n-type semiconductors - Find p- and n-type organic semiconductors available with PCBM library & properties.

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

The development of high-performance conjugated organic molecules and polymers has received widespread attention in industrial and academic research.

Professor Chen (Nankai University, China) and his team explain the strategies behind their recent record-breaking organic solar cells, reaching a power conversion efficiency of 17.3%.

Our team of scientists has experience in all areas of research including Life Science, Material Science, Chemical Synthesis, Chromatography, Analytical and many others.

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