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Catalog Number:
40466
CAS Number:
79109-69-6
2,5-Bis[(triméthylsilyl)éthynyl]thiophène
Purity:
≥ 96% (CG)
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Product Information

2,5-Bis[(trimethylsilyl)ethynyl]thiophene is a versatile compound known for its unique electronic properties, making it an excellent candidate for applications in organic electronics and materials science. This compound features a thiophene backbone, which is integral in the development of conductive polymers and organic semiconductors. Its trimethylsilyl groups enhance solubility and stability, facilitating its use in various formulations. Researchers have utilized this compound in the synthesis of advanced materials for organic photovoltaics and field-effect transistors, where its ability to improve charge transport and stability is highly valued.

Additionally, 2,5-Bis[(trimethylsilyl)ethynyl]thiophene can be employed in the development of sensors and other electronic devices, offering significant advantages over similar compounds due to its tunable electronic properties. Its compatibility with various substrates and ease of processing make it a preferred choice for professionals seeking to innovate in the fields of organic electronics and nanotechnology.

CAS Number
79109-69-6
Purity
≥ 96% (CG)
Molecular Formula
C 14 H 20 SSi 2
Molecular Weight
276.54
MDL Number
MFCD18207392
PubChem ID
12702007
Melting Point
80 - 84 °C
Appearance
Poudre légèrement jaune orange clair
Conditions
Magasin chez RT
General Information
CAS Number
79109-69-6
Purity
≥ 96% (CG)
Molecular Formula
C 14 H 20 SSi 2
Molecular Weight
276.54
MDL Number
MFCD18207392
PubChem ID
12702007
Melting Point
80 - 84 °C
Appearance
Poudre légèrement jaune orange clair
Conditions
Magasin chez RT
Properties
Additional property information coming soon!
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Safety and Regulations
Hazmat
Non
Antibiotic
Non
DEA-regulated
Non
Warnings
-
Applications

2,5-Bis[(trimethylsilyl)ethynyl]thiophene is widely utilized in research focused on:

  • Organic Electronics: This compound is used in the development of organic semiconductors, which are essential for manufacturing flexible displays and solar cells. Its unique structure enhances charge transport properties, making devices more efficient.
  • Polymer Chemistry: It serves as a building block for synthesizing novel polymers with tailored electronic properties. Researchers can create materials that exhibit specific conductivity levels, crucial for advanced electronic applications.
  • Photovoltaic Applications: The compound is incorporated into organic photovoltaic cells, improving light absorption and energy conversion efficiency. This leads to more effective solar energy solutions, addressing the growing demand for renewable energy sources.
  • Sensors: Its chemical properties allow for the development of sensitive organic sensors that can detect environmental pollutants or biological markers. This application is vital for environmental monitoring and healthcare diagnostics.
  • Research in Material Science: The compound is used in studies aimed at understanding the interactions between organic materials and their electronic properties, paving the way for innovations in various high-tech industries.

Citations