How to Achieve Reproducible Catalyst Screening

The search for better, greener, and more efficient catalysts is ongoing in the fast-moving world of catalysis research. However, identifying these chemicals during catalyst screening is akin to searching for a needle in a haystack, as even the smallest details can influence the results.

The DrySyn Octo features 8, 10 ml glass vials for parallel reactions. Image Credit: Asynt

This is why Asynt developed the DrySyn OCTO system. This tool allows researchers to run multiple experiments simultaneously with precision and ease. This article discusses how this can be achieved.

The Heart of the Matter: Reproducibility

The principle of reproducibility is central to any scientific endeavor. This is key in catalyst screening and research, as experiments must be repeatedly performed under the same conditions without hindrance.

This is where the DrySyn OCTO comes into its own. Users can run up to eight reactions simultaneously (or even 24 when three OCTO reactors are being performed in parallel), all on a single standard magnetic stirrer hotplate that makes it possible to stir and heat each experiment with precision. This can be considered an opportunity to free up a pair of hands in the laboratory, allowing the general workflow to run smoothly and efficiently.

Running 3 parallel Octos allows for 24 reactions on a single hotplate. Image Credit: Asynt

Why High-Throughput Screening is Important

High-throughput screening depends on the ability to analyze many candidates quickly to identify the best match. The DrySyn OCTO system facilitates multiple parallel reactions, enabling this.

This type of catalyst screening accelerates the discovery process and offers more opportunities to find the road to success. It runs with affordable, easy-to-find consumables and underscores considerable cost reductions without compromising quality.

Features That Make a Difference

The OCTO is packed with features that make it a dynamic tool in any laboratory and for those seeking efficient catalyst screening:

• Inert Atmosphere: It can be connected to a Schlenk line, making it ideal for sensitive reactions that otherwise clash with oxygen or moisture.
• Sampling and Additions Made Easy: Thanks to its septa, adding reagents or taking samples is easy, allowing users to preserve the integrity of an experiment.
• Vacuum Capabilities: For reactions that necessitate reduced pressure, the DrySyn OCTO plays its part—simply connect it to an appropriate vacuum pump.
• Temperature Control with the DrySyn Snowstorm: When coupled with the Snowstorm, the system can handle a broad temperature range, from sub-ambient below to above ambient.
• Sealed System for Flexible Temperature Management: Its sealed design lets users cool or heat things precisely and easily.

The DrySyn Octo Kit with additional accessories. Image Credit: Asynt

The DrySyn OCTO System for Catalyst Screening

The DrySyn OCTO platform is not just a piece of laboratory equipment but a revolution in how scientists can approach catalyst screening. 

It tackles the major issues associated with catalyst screening head-on, including reproducibility and high-throughput screening. A broad range of features complements its unparalleled versatility. Whether running reactions under an inert atmosphere, using a vacuum, or easily controlling temperatures, the DrySyn OCTO can make the workflow smoother, faster, and more reliable.

The DrySyn OCTO system is helping set the stage for how catalyst screening will look. Discovering new catalysts will be more efficient, faster, and more accessible. This is a promising time for catalysis research, and the DrySyn OCTO tool is optimally positioned to help advance catalyst research.

This information has been sourced, reviewed and adapted from materials provided by Asynt.

For more information on this source, please visit Asynt.