High-Performance OPV Donor D18 (PCE18) for Advanced Organic Solar Cells
Unlock the potential of next-generation solar energy with our cutting-edge OPV Donor D18 (PCE18) material.
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OPV Donor D18 (PCE18)
This narrow bandgap copolymer is a cornerstone for high-efficiency organic solar cells (OPV). Its unique structure, featuring alternating electron-donating benzodithiophene (BDT) and electron-accepting fused-ring dithienobenzothiadiazole (DTBT) units, facilitates a high degree of conjugation and exceptional electronic properties. This leads to a high hole mobility, a critical factor for superior device performance in organic photovoltaics.
- Explore the benefits of high hole mobility polymer solar cell donor technology, which significantly enhances charge transport within OPV devices.
- Leverage the power of a narrow bandgap copolymer for OPV applications, enabling broader light absorption and improved power conversion efficiencies.
- Discover the advantages of using D18 (PCE18) as a key electron donor material for organic photovoltaics, contributing to record-breaking device efficiencies.
- Understand the organic semiconductor D18's role in efficient hole transport, a vital characteristic for robust and high-performing electronic devices.
Advantages Delivered by the Product
Exceptional Hole Mobility
Benefit from a high hole mobility of 1.59 × 10-3 cm2 V-1 s-1, crucial for optimizing charge carrier transport in organic electronic devices, as highlighted in research on organic semiconductor D18 hole transport.
Record-Breaking Efficiency Potential
Achieve industry-leading performance, with reports of 18.22% device efficiency and certified 17.6% efficiency when used as an electron donor material for organic photovoltaics.
Advanced Molecular Design
Utilize a material with a backbone alternating electron-donating BDT and electron-accepting DTBT units, providing a larger molecular plane structure and higher conjugation for advanced OPV applications.
Key Applications
Organic Photovoltaics (OPV)
This material serves as a primary electron donor in OPV devices, enabling high power conversion efficiencies and contributing to the advancement of solar energy technologies.
Organic Semiconductors
As a high-performance organic semiconductor, it is vital for creating next-generation electronic devices that require efficient charge transport properties.
Polymeric Hole Transport Materials
Its excellent hole mobility makes it an ideal candidate for polymeric hole transport layers in various organic electronic applications, optimizing device performance.
Next-Generation Energy Devices
Explore its potential in advanced energy solutions, contributing to innovation in fields requiring superior charge transport and optoelectronic properties.