General information

  • Name: Formamidinium bromide >99.99%
  • CAS number: 146958-06-7
  • Chemical formula: CH5BrN2
  • Molecular weight: 124.97 g/mol
  • Synonyms: Formamidine hydrobromide ; FABr
  • Appearance: White powder

Formamidinium Bromide >99.99% – Optimal Precursor for Perovskite Panels

At Noctiluca, we offer Formamidinium Bromide >99.99%, a fundamental chemical precursor vital for advanced perovskite photovoltaics and optoelectronic devices. This compound, identified by its CAS number 146958-06-7 and molecular weight of 124.97 g/mol, is designed to adhere to rigorous research and industry standards, delivering superior performance in sophisticated technological applications. Our commitment to quality ensures that Formamidinium Bromide >99.99% facilitates enhanced efficiency and durability in solar cells and electronic components, making it indispensable for modern material science developments.

The Molecular Structure and Properties of Formamidinium Bromide >99.99%

Formamidinium Bromide, also known as Formamidine hydrobromide, with the chemical formula CH5BrN2, is notable for its high stability and a bandgap of 2.23 eV, making it an excellent choice for advanced semiconductor applications. The crystalline nature of this compound provides a durable foundation for developing perovskite layers, crucial for effective energy conversion in next-generation solar cells. Its molecular structure ensures seamless integration into perovskite matrices, enhancing electron transport and maintaining structural integrity under a wide range of operational conditions, solidifying its role in the advancement of solar technology.

Key Features of Formamidinium Bromide >99.99%

  • High Purity and Quality: Our Formamidinium Bromide >99.99%, with its exceptional synthesis process, guarantees a purity level exceeding 99.99%. This rigorous standard ensures a stable and consistent material that forms the backbone of high-performance perovskite solar cells, setting the stage for cutting-edge research and commercial applications in the field of renewable energy.
  • Versatility in High-Efficiency Solar Cells: Recognized as a superior precursor in the fabrication of perovskite solar cells, Formamidinium Bromide >99.99% is instrumental in achieving outstanding energy conversion efficiencies. Its adaptability and effectiveness in perovskite formulations allow for the development of solar cells that not only meet but exceed current performance benchmarks, driving significant advancements in the conversion of solar energy into electricity.
  • Thermal Stability and Chemical Resistance: Formamidinium Bromide >99.99% is engineered to withstand a wide range of temperatures, making it suitable for deployment in diverse climatic conditions. This thermal resilience, coupled with its robust chemical resistance, ensures that the compound maintains its integrity and functionality over prolonged periods, thereby enhancing the durability and reliability of solar panels.
  • Ideal for Perovskite Applications: Beyond solar cell applications, Formamidinium Bromide >99.99% is also perfectly suited for other perovskite-based technologies, including light-emitting diodes (LEDs) and photodetectors. Its versatile properties support a broad spectrum of optoelectronic devices, underpinning innovations across the perovskite industry and contributing to the broader adoption of this promising material in various high-tech applications.

The Role of Formamidinium Bromide >99.99% in Advanced OLEDs and Perovskite Applications

Formamidinium Bromide >99.99%, known chemically as CH5BrN2, plays a pivotal role in the development of perovskite materials crucial for state-of-the-art optoelectronic devices such as OLEDs and advanced solar panels. By facilitating the formation of layers that significantly enhance light absorption and emission, this compound boosts the operational efficiency and performance of these devices. The integration of Formamidinium Bromide >99.99% in perovskite layers is essential for achieving superior energy conversion efficiencies, which is critical in the advancement of both organic and hybrid photovoltaic systems. Additionally, its use in perovskite formulations enhances the stability and durability of the end products, making it a vital material for developers seeking to optimize the functionality and efficiency of emerging optoelectronic technologies. This compound’s unique properties support a wide range of applications, pushing the boundaries of what is possible in the renewable energy sector and contributing to the development of next-generation energy solutions.

Conclusion

Formamidinium Bromide >99.99% exemplifies the apex of Noctiluca’s chemical manufacturing capabilities, underlining our dedication to pioneering advancements in material science for sustainable and efficient energy applications. As a distinguished chemical manufacturer and contract research organization (CRO), we commit to providing our clients with superior-grade materials that drive technological and innovative progress. 

Contact us today to learn how our high-purity Formamidinium Bromide can serve your scientific and industrial needs, ensuring your projects benefit from the highest standards of quality and performance or to order larger quantities of the compound.

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