The latest Cary UV Workstation software revision comes with new features and enhancements, including compatibility with the new OpenLab 2.8—helping organizations deploy Cary 3500 UV-Vis instruments in distributed environments. Also included are potassium dichromate tests for absorbance and linearity validation. This software version supports Windows 11 21H2, and ECM 3.6.5. The Cary 3500 UV-Vis spectrophotometer series with the Cary UV Workstation software will help meet the requirements of the United States Pharmacopeia USP <857>, European Pharmacopoeia (Ph. Eur. Chapter 2.2.25), and the Japanese Pharmacopeia (JP XVIII) for regulatory peace of mind.

This ebook from Wiley publishing is packed full of information about using UV-Vis-NIR spectroscopy to characterize nanomaterials.

In this application note, concentration analysis of ultra-microvolume samples of protein and nucleic acid is discussed. The Agilent Cary 60 UV-Vis fitted with the TrayCell 2.0 Ultra-Microvolume Cell was used for the study.

The biochemistry teaching laboratories at Iowa State University have relied on the outstanding performance and reliability of the Cary 60 scanning spectrophotometers. Since 2000, our twelve Cary spectrophotometers have continued to be the workhorse in our teaching laboratories. A major concern for a teaching laboratory is the reliability of instrumentation, and the continued support and service provided long after purchase. After many years of heavy use in a teaching setting, all our Cary 60 instruments have proven to be of very high-quality with outstanding durability. We design our biochemistry curriculum to prepare students for research-based career paths that demand technologically curre

We are impressed with the fast scan, user friendly modular design and high throughput of Agilent Cary 3500 UV-Vis. In particular, the great temperature ramping rate and sensitivity makes our work easier. Our project uses UV-Vis to research how temperature affects the scattering properties of gold nanoparticles coated in PNIPAM polymer. As temperature increased over the 30 – 40 °C range, the polymer collapses and the particles aggregate; we are interested in understanding the dynamics of these processes. Wavelength scans at different temperatures, and thermal gradient scans are used to partially characterize these processes. We also do these measurements over a range of pH, salt concentrat

Agilent’s Cary 3500 with controlled stirring and wide range of temperature control options has converted me to use UV-vis spectroscopy to monitor processes in situ using this instrument. The stability of the signal allows for long term kinetic processes too, opening up a range of experiments I was unable to do beforehand due to drift. The intuitive software and data management prevents the loss of results and ensure well organized projects and archives. The Cary 3500 is most definitely an exciting advancement from any other UV-vis spectrometer I have used previously, expanding the flexibility to control more parameters while conducting research experiments.

Access four promotional offers, including up to 50% off a new Cary 3500 UV-Vis. With the ability to collect up to 250 data points per second and a 10-year warranty xenon flash lamp that eliminates warm-up time, the Cary 3500 ensures that your research is not only efficient but also environmentally conscious, having received My Green Lab's ACT label for sustainability.

"I recommend the Cary 7000 UMS because there is no alignment, no user intervention, no extra baseline, its fully automated and that allows for a streamlined workflow for material characterization”

Rechargeable batteries are at the forefront of global discussions as an alternative to typical combustion engines. This white paper provides examples of how Agilent UV-Vis/NIR spectrophotometers are being used—by leading research groups—in the characterization of rechargeable battery materials and components.

How to get the functionality you need for compliance with 21 CFR Part 11 or EU Annex 11 when using the Agilent Cary 3500 UV-Vis instrument.

I have an inquiry regarding a replacement "lens" (actually the entire lamp head clear plastic outer cover) on a Skytron Aurora LED surgical lamp.  I suggested that this person contact the manufacturer, which he says he did, but still wants an alternate parts source.  Any advise would be appreciated.