Tetrathiafulvalene (CAS 31366-25-3): A Key Organic Semiconductor and Conductive Material
Discover the properties and applications of Tetrathiafulvalene, a vital organic electron donor crucial for advancements in organic electronics, energy storage, and scientific research. Explore its role as a key fine chemical component.
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Tetrathiafulvalene
We are a leading supplier of Tetrathiafulvalene, a significant organic electron donor with the CAS number 31366-25-3. This fine chemical is integral to the development of cutting-edge technologies in organic electronics and energy storage solutions. As a reliable manufacturer in China, we ensure high purity and consistent quality for your research and development needs.
- Leverage our Tetrathiafulvalene supplier China expertise to source high-quality organic semiconductor materials for your projects.
- Explore the potential of buy Tetrathiafulvalene 31366-25-3 for advanced applications in energy storage, particularly in high-performance Li-O2 batteries.
- Utilize this key fine chemical for research into novel conductive materials and charge-transfer complexes.
- Integrate Tetrathiafulvalene into your processes for surface modification of carbon nanodots, enabling new electrochemical applications.
Advantages You'll Experience
Exceptional Electron Donor Properties
Tetrathiafulvalene's unique molecular structure makes it a potent electron donor, essential for forming charge-transfer complexes and enabling conductivity in various organic electronic devices. This makes it a sought-after fine chemical for research.
Versatile Applications in Research
From advanced battery technologies to developing novel conductive polymers, Tetrathiafulvalene serves as a crucial building block. Its multifaceted use makes it valuable for researchers seeking to push the boundaries of material science.
High Purity and Reliability
As a trusted manufacturer in China, we guarantee the purity of our Tetrathiafulvalene, ensuring reproducible results for your critical research and industrial applications. Count on us for your fine chemical needs.
Key Applications
Organic Electronics
Tetrathiafulvalene is a cornerstone in the field of organic electronics, enabling the development of organic semiconductors and conductive polymers, vital for next-generation devices.
Energy Storage
Its role in high-performance Li-O2 batteries and surface modification of nanomaterials highlights its importance in advancing energy storage technologies, making it a key fine chemical.
Research & Development
As a critical research chemical, Tetrathiafulvalene supports fundamental scientific inquiry and the exploration of new conductive materials and charge-transfer complexes.
Material Science Innovation
The unique properties of Tetrathiafulvalene make it an indispensable component for material scientists developing novel functional materials for a wide array of applications.