Unlocking the Potential of [70]PCBM: Your Guide to Advanced Organic Semiconductors
Discover the groundbreaking properties and applications of (6,6)-Phenyl C71 Butyric Acid Methyl Ester, a key n-type semiconductor driving innovation in organic electronics.
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[70]PCBM
As a leading supplier in China, we offer (6,6)-Phenyl C71 Butyric Acid Methyl Ester ([70]PCBM), a highly effective soluble n-channel organic semiconductor. This advanced material is essential for the development of next-generation organic electronic devices, including high-performance organic field-effect transistors (OFETs) and efficient solar cells. Its unique fullerene structure provides superior performance compared to C60 derivatives, particularly in terms of light absorption in the visible spectrum, making it a prime choice for achieving high power conversion efficiencies (PCE) in polymer solar cells.
- Leverage the power of organic field-effect transistors applications with our high-purity [70]PCBM. Our material's consistent n-type semiconducting properties ensure reliable performance and ease of integration into your OFET fabrication processes.
- Achieve superior solar cells n-type semiconductor performance. [70]PCBM serves as a critical fullerene acceptor in organic solar cells, significantly boosting power conversion efficiency and overall device stability for researchers and manufacturers.
- Explore the potential of polymer solar cells PCE enhancement. Our [70]PCBM exhibits excellent solubility and compatibility with various electron donors, enabling the creation of highly efficient bulk heterojunction solar cells.
- Benefit from the unique properties of fullerene derivatives for solar cells. With enhanced absorption in the visible range, [70]PCBM is instrumental in developing advanced photovoltaic technologies.
Key Advantages Offered
Enhanced Performance in Organic Electronics
Our [70]PCBM, a leading soluble n-channel organic semiconductor, provides superior charge transport properties, crucial for advancing organic field-effect transistors applications and boosting the performance of organic solar cells.
Superior Light Absorption
As a premier fullerene acceptor for solar cells, [70]PCBM offers significantly stronger absorption in the visible spectrum compared to C60-based materials, a critical factor for achieving high power conversion efficiencies (PCE) in polymer solar cells.
Versatile Application Potential
This versatile material excels in organic OFETs and solar cells, enabling the fabrication of efficient bulk heterojunction solar cells and other advanced organic electronic devices.
Key Applications
Organic Solar Cells
Utilize [70]PCBM as a key fullerene acceptor to achieve high power conversion efficiencies (PCE) in organic solar cells, particularly in bulk heterojunction designs.
Organic Field-Effect Transistors (OFETs)
Leverage the excellent n-type semiconducting properties of [70]PCBM for reliable and high-performance applications in organic field-effect transistors.
Research & Development
An indispensable material for researchers exploring advanced organic electronics, enabling studies in new semiconductor materials and device architectures.
Printed Electronics
Its solubility makes [70]PCBM suitable for solution-processing techniques, paving the way for cost-effective printed electronic devices.