9-Fluorenone
9-Fluorenone

9-Fluorenone

Specification :
Purity : >99.5%
Melting point : 82-86℃
Appearance: golden yellow crystal
Iron ion content : <1ppm
cas no : 486-25-9

9-Fluorenone is an important organic synthesis intermediate that can be used to manufacture a variety of fine chemicals.
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Introduction

Unlocking Infinite Possibilities with 9 Fluorenone
Embark on a journey to explore the vast versatility of 9 Fluorenone, a pivotal organic synthesis intermediate at the forefront of chemical innovation. At VITAL CHEMICAL CO., LTD., our commitment extends beyond mere innovation – it's about unlocking a spectrum of possibilities. Delve into how 9 Fluorenone forms the bedrock for a diverse array of fine chemicals, setting unprecedented standards in both quality and performance.

9 Fluorenone: A Catalyst for Excellence in Fine Chemical Manufacturing
Recognized at VITAL CHEMICAL CO., LTD. as a true catalyst for excellence, 9 Fluorenone takes center stage in the realm of fine chemical manufacturing. This indispensable organic synthesis intermediate plays a crucial role in the creation of a broad spectrum of high-quality chemicals. Immerse yourself in the pinnacle of chemical innovation, where 9 Fluorenone leads the way.

Bespoke Excellence with 9 Fluorenone
Going beyond the offering of 9 Fluorenone, VITAL CHEMICAL CO., LTD. specializes in delivering bespoke solutions tailored to your unique needs. Our commitment to excellence encompasses personalized OEM and ODM services. Partner with us to unlock tailor-made solutions that elevate your chemical endeavors to unparalleled heights of success.

Application
1 Modifier used for the synthesis of polymer materials, bisphenol fluorene, fluorenyl benzoxazine resin, acrylate resin, polyester, polycarbonate and epoxy resin.
2 Synthesis of hosts for blue and green phosphorescent organic light-emitting diodes (PHOLEDs).
3 Synthesis of fluorenyl molecular motors.
4 Synthesis of open-shell Chichibabin hydrocarbons as potential organic spintronic materials.
5 It can also serve as a sensitizer to form dinaphthyl via photosensitization of 1,2-bis(1-naphthyl)ethane.