Chromatography 9 Solvent- and Waste Level Sensor
Introducing the GL Sciences SR-13 Solvent Level Sensor for Chromatography - the cutting-edge solution for solvent level monitoring in your chromatography process. Accurate solvent level monitoring is of critical importance in chromatography. Any deviations from the desired solvent level can compromise your analysis done, resulting in costly rework and lost productivity. That’s why the GL Sciences SR-13 Solvent Level Sensor was developed, a state-of-the-art solution that ensures precise and reliable solvent level measurements.
The GL Sciences SR-13 Solvent Level Sensor utilises advanced ultrasonic technology to provide high-precision measurements of liquid levels, regardless of the solvent. Even the difficult to monitor solvent Chloroform is no problem. Its non-invasive design eliminates the need for any contact with the solvent, preventing contamination and preserving solvent integrity. The solvent level changes are detected at high accuracy.
The sensor is easy to install and operate, with a simple interface that shows the actual status of your solvent level at a glance. The sensor stands alone and easily works in combination with any LC brand. Upon request an RS232 port can be installed for direct communication with your LC system to stop your LC instrument when the solvent level runs low. And with its compact and durable design, the GL Sciences SR-13 Solvent Level Sensor fits in any laboratory.
One GL Sciences SR-13 Main unit can connect to three separate sensors, either for your 1 litre solvent bottle or your waste container(s). By using two solvent sensors, your gradient method is safe from depleting unnoticed. The interface shows the measured level by displaying 1-4 LED lights. Once the solvent level drops below 25%, one orange LED will show. In case the solvent level drops below 10%, a red LED will start blinking and a continuous sound will be heard.
GL Sciences is committed to delivering the highest quality solutions to their customers. The GL Sciences SR-13 Solvent Level Sensor for Chromatography is no exception - it is a reliable and accurate tool that will help you optimise your chromatography process.
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ilmt.co/PL/z1L7 Low-Flow HPLC Columns for Proteomics
With its distinct micro-pillar separation design, the Thermo Scientific µPAC Neo HPLC Columns offer researchers the ability to delve deeper into proteomics samples. These columns allow for precise identification of peptides, determination of protein quantities, and discovery of disease biomarkers and post-translational modifications. The latest inclusion in the product line is the low-load trapping column of µPAC Neo, designed to cater to the tiniest sample sizes in single-cell proteomics separations. This column comes equipped with built-in nanoViper connections to the Vanquish Neo UHPLC systems, which offers seamless usability and mitigates the risk of errors. All users of µPAC Neo columns can experience the advantages of consistent column reproducibility, leading to more dependable data analysis and result reliability.
The complete range of µPAC Neo columns presents a variety of options to cater to different proteomics research requirements. These include a 50 cm µPAC Neo column that is well-suited for routine proteomics, a 110 cm µPAC Neo column designed for comprehensive proteomics investigations, and a 50 cm µPAC Neo low-load column that is specifically tailored for single-cell proteomics. In addition, the µPAC Neo low-load trapping column provides support for single-cell proteomics separations, complete with built-in nanoViper connections to Vanquish Neo UHPLC systems for greater ease of use and reduced risk of errors. With this diverse range of options, researchers can choose the most appropriate column for their specific proteomics analysis needs.
The manufacturing process of µPAC Neo columns involves micromachined etching of silicon wafers, leading to the creation of precise and uniform separation paths. This results in an exceptional level of consistency between columns and prolonged column lifetimes, which is particularly beneficial for proteomics research. These columns offer greater column-to-column reproducibility compared to packed- bed columns, making it easier for researchers to develop and validate methods and analyse larger sample batches with more confidence.
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ilmt.co/PL/WMxd 59929pr@reply-direct.com
59975pr@reply-direct.com
Artificial Intelligence Enhances New Headspace Autosamplers
HTA is proud to announce the release of the 2000H series, the new static headspace autosamplers empowered by Artificial Intelligence.
The integration of Artificial Intelligence into the 2000H series enhances the intuitiveness and performance efficiency of headspace applications in laboratories. The AI functionalities enable workflow optimisation by tuning instrument parameters, leading to smoother and more efficient analysis. Additionally, injection-to-injection optimisation automatically calculates the time between injections, ensuring optimal sample throughput. Predictive maintenance strategies are enabled through self-diagnostic and performance tests, as well as automated consumable tracking, guaranteeing effective results without any stoppages. Finally, dynamic on-screen QR codes simplify the connection with service.
The 2000H series incorporates an exclusive quick-fix mounting kit from HTA, allowing for easy relocation of autosamplers across the laboratory in case of sudden workload reorganisation. With no service engineer or tool required, HTA autosamplers can be moved from one GC to another, swapped, or shared among several GCs in less than five minutes. Gone are the laborious and almost irreversible installations of traditional headspace autosamplers; the 2000H series provides a smooth installation process and a high degree of operational flexibility on all GC and GC/MS systems.
HTA has confirmed the successful three-model scheme of their previous headspace series with the introduction of the new 2000H series, which includes the best-selling 2000H, the 2100H for small sample batches, and the 2000HT for high-temperature polymer analysis. While the scheme remains the same, the new series offers extended technological advantages over competitor products and introduces new improvements in usability, speed, and reliability. Customers can witness the higher quality touch screen and improved design for themselves, which are just a few of the many enhancements in the new series.
If you are not yet convinced by these arguments, it is worth noting that choosing the HTA headspace autosampler is also an environmentally responsible decision. The 2000H series has been designed to conserve electricity, gas, and other valuable resources, allowing you to save money while reducing your environmental impact. By choosing the 2000H series, you can make a green choice that benefits both your laboratory and the planet.
More information online:
ilmt.co/PL/06jV 59848pr@reply-direct.com
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