Understanding the viscosity is a crucial aspect of manufacturing operations in many industries worldwide. In order to fulfill customer demands of product consistency and quality, viscosity measurement becomes even more important.

The popularity of mass spectrometers (MS) in the food, clinical research and pharmaceutical markets has pushed labs to seek ways to improve the speed of their liquid chromatography (LC), thus increasing the throughput of their MS.

Liquid handling has a pivotal role in a wide range of experimental applications with researchers worldwide depending on a variety of different pipetting methods on a daily basis.

Near Infrared (NIR) spectroscopy is a widely used technique that detects the presence of different chemical bonds through the analysis of optical absorption in the wavelength range 700 to 2500 nm.

The study of cells and their behavior is growing rapidly in drug discovery and disease research. This has created a huge demand for more efficient methods to culture cells.

The steadily escalating cost of the drug discovery process means companies are continuously looking for ways to increase process and cost efficiency.

Sample matrices are known to create analytical obstacles during routine Total Organic Carbon (TOC) analysis.

In today's life science research environment, the usefulness and versatility of cellular analysis is growing rapidly.

Many relatively simple industrial or laboratory processes that require control of flow or pressure can be greatly improved with automation.

Currently nanoparticles are measured by most particle size analyzers using scattered light; however in some cases this presents many physical restrictions and also requires the input of the refractive index as a measurement condition.

The majority of the zetameters are based on the electrophoresis measuring principle where the zeta potential for a colloidal system is analyzed by measurement of the electrophoretic mobility of the particles.

Water purification systems are required for a variety of applications, all of which require different degrees of purity. With a wide range of pure water systems available, it can be difficult to know which one will provide the best results for your lab.