Agilent Cary 8454: High-Precision UV-Visible Spectrophotometer
The Agilent Cary 8454 UV-Visible Spectrophotometer leverages diode array technology to deliver optimal performance for laboratory sample analysis. Its motionless detection system enables data acquisition in just 0.1 seconds, making it a top choice for environments requiring rapid and reliable analyses.
Its optical design ensures efficient light transmission through samples, allowing precise detection across the entire UV-Visible spectrum. The absence of moving parts not only reduces the risk of malfunctions but also enhances the stability and repeatability of measurements, a major advantage in pharmaceutical and chemical laboratories.
The instrument's open interface facilitates sample handling, providing easy access to cell holders and other accessories. This feature enhances user comfort and accelerates analytical processes. The device is also compatible with a wide range of accessories, including automatic sample changers and thermostated cell holders, ensuring adaptability to the specific needs of each application.
The associated ChemStation UV-Visible software enables precise control of analyses, with data processing functionalities. It ensures compliance with 21 CFR Part 11 regulations, providing optimal traceability and security for laboratories with stringent requirements. The ability to integrate OpenLab ECM further strengthens data management and secure archiving.
With its optimized architecture, the Cary 8454 supports complex kinetic analyses, identification of multi-component samples, and validation and revalidation of analytical methods. It excels in studies requiring measurements at multiple wavelengths, particularly in pharmaceutical analysis and chemical research.
This spectrophotometer seamlessly integrates into laboratories already equipped with Agilent 845x models, ensuring a smooth transition and continuity of existing protocols. Its intuitive user interface allows for quick familiarization and effortless skill development.
Maintenance is simplified thanks to a robust design and the use of long-life lamps (tungsten and deuterium), reducing maintenance costs. The absence of moving components and the system's reliability make it a durable and high-performing instrument, ideal for laboratories seeking a reliable and efficient solution for spectroscopic analyses.
