The field of materials science is continuously pushing the boundaries of what's possible, with new compounds and intermediates driving innovation. Cyclopentanone, 2,5-bis(2-furanylmethylene)- (CAS 1026-78-4) is emerging as a compound of interest due to its intriguing photochemical and photophysical properties, making it a candidate for advanced material applications, particularly in optoelectronics.

With its chemical formula C15H12O3 and molecular weight of 240.254, Cyclopentanone, 2,5-bis(2-furanylmethylene)- offers a unique molecular structure that can be harnessed for novel material development. For researchers and engineers in materials science, the ability to reliably source such specialty chemicals is fundamental to their experimental and production processes. When considering the purchase of this compound, understanding its potential benefits in creating new materials is key.

The photochemical and photophysical characteristics of CAS 1026-78-4 suggest potential applications in areas such as organic light-emitting diodes (OLEDs), photovoltaic cells, and other optoelectronic devices. Its specific molecular arrangement may contribute to desired light absorption or emission properties, or act as a crucial component in polymer synthesis for advanced materials. As a chemical supplier, we aim to support these cutting-edge industries by providing access to high-quality intermediates like this one.

Procurement professionals looking to integrate Cyclopentanone, 2,5-bis(2-furanylmethylene)- into their materials science projects must consider the supplier's ability to provide consistent quality and technical data. Understanding specifications such as density (1.289g/cm³) and flash point (201.2°C) is important for handling and integration. We ensure that our products meet the stringent requirements necessary for advanced applications, backed by a commitment to reliable supply and customer support.

The exploration of new materials is a cornerstone of technological advancement. Cyclopentanone, 2,5-bis(2-furanylmethylene)- offers a promising avenue for innovation in materials science and optoelectronics. We invite researchers and manufacturers to explore the possibilities this chemical intermediate presents and to consider us as your trusted partner for sourcing these critical building blocks for your next breakthrough.