Six basic water-purification technologies--distillation, ion exchange, carbon adsorption, reverse osmosis, microporous membrane filtration, and ultrafiltration--represent the standard methods for ...

Water is probably the most commonly used laboratory reagent. However, it is often taken for granted and its potential impact on experimental outcomes overlooked. Understanding basic principles ...

Twenty-five years ago, water was considered "pure" enough for laboratory use if it would resist electrical current fairly well, suggesting it was relatively free of conductive ions. A new generation ...

There are different uses for water in a laboratory. Water baths, dishwashers and basic cleaning protocols require lower-purity water while sensitive analytical applications and molecular biology ...

The Cyclon is an outstanding option for a reliable laboratory water purification system. Its simple design and user-friendly interface ensure ease of use while conserving valuable space. The Cyclon ...

In many laboratories, having more space is extremely beneficial — especially when centralized laboratory water dispensing devices are required to dispense pure and ultrapure water for a wide range of ...

When the Associated Press published results from its five-month study on the presence of pharmaceuticals in drinking water in 2008, it made headlines across the country. Drugs such as antibiotics, ...

The life science group Sartorius announces the Arium® Mini Extend, the newest member of the Arium® Mini family. Designed to meet the Type 1 water demands of laboratories for general, life-science and ...

Water is the most important laboratory reagent. It serves as the principal ingredient in the preparation of media, buffers, samples, dilution series and blanks. It is also used to flush instruments, ...