High Recovery Glass Vials are an essential component in many laboratory applications, particularly in the field of chromatography. These vials are specifically designed to maximise sample recovery and minimise sample loss, ensuring accurate and reliable results. In this article we will explore what a 1.5ml High Recovery Glass Vial is, discuss its benefits and highlight its importance in various analytical processes.
A 1.5ml glass high recovery vial is a small cylindrical container made from high quality borosilicate glass. It is commonly used in liquid chromatography (LC) and gas chromatography (GC) applications where maintaining sample integrity and minimising sample loss are critical. These vials typically have a narrow opening, known as a neck or mouth, to accommodate different types of closures, such as screw or crimp caps.
Let’s now look at the benefits of using a 1.5ml High Recovery Glass Vial:
One of the main benefits of using a 1.5ml High Recovery Glass Vial is its ability to maximise sample recovery. The vials are specifically designed to minimise sample loss during the analytical process. The high quality borosilicate glass used in their construction ensures minimal interaction with the sample, preventing adsorption or leaching of analytes. This is particularly important when working with low concentration samples or limited sample volumes. By maintaining the integrity of the sample and minimising sample loss, these vials optimise the sensitivity and accuracy of the analysis.
The narrow opening of a High Recovery Vial, combined with appropriate sealing using caps or septa, plays a crucial role in reducing sample evaporation. The tight seal created by the cap prevents volatile components from escaping from the sample. This feature is particularly beneficial when working with volatile or sensitive samples that are prone to evaporation. By minimising sample evaporation, these vials help to maintain the original composition of the sample, ensuring reliable and reproducible results.
1.5ml High Recovery Glass Vials are compatible with a wide range of analytical techniques, making them highly versatile in the laboratory. They can be used in Liquid Chromatography (LC) and Gas Chromatography (GC) applications as well as other analytical methods. Whether it’s pharmaceutical analysis, environmental testing, food and beverage analysis or forensic investigations, these vials provide a reliable and consistent platform for sample preparation and analysis. Their compatibility with different techniques makes them a valuable tool for researchers and analysts working in a variety of fields.
The borosilicate glass used in High Recovery Vials offers exceptional chemical resistance. It can withstand exposure to a wide range of solvents, acids and other aggressive substances commonly used in analytical laboratories. This chemical resistance ensures that the vials remain intact and do not interact with or contaminate samples. It also protects the vials from degradation or damage caused by harsh chemicals, ensuring their longevity and reliability.
The compact size of the 1.5ml High Recovery Glass Vials makes them easy to handle and efficient to store. Their small footprint allows for organised sample management, optimising laboratory space. In addition, the smooth glass surface of the vials provides a suitable medium for labelling. Researchers can easily label the vials with sample identification information such as sample names, dates or other relevant details. Clear and accurate labelling enhances sample traceability and prevents confusion or mix-ups during the analytical process.
In summary, 1.5ml High Recovery Glass Vials offer several advantages in sample analysis. They maximise sample recovery, reduce sample evaporation, are compatible with various analytical techniques, have excellent chemical resistance and are easy to handle and label. These vials are essential tools for researchers and analysts who strive for accurate and reliable results in their analytical work. By incorporating High Recovery Vials into their laboratory workflow, they can optimise sample preparation and analysis, leading to improved data quality and more accurate scientific results.