A chromatographic device including a coated metallic frit is disclosed. The coating is provided over the fluid exposed surfaces of the frit, thereby covering metallic surfaces to prevent interaction with an analyte in the flowstream. This technology relates to the use of vapor deposition coated frit(s) in a liquid flow path for improved chromatography. More specifically, this technology relates to liquid chromatographic devices for separating analytes in a sample having coated frit(s) within an uncoated metallic fluidic flow path (i.e., the column tube or channel is formed of stainless steel, titanium (pure or alloyed), or some mixture of stainless steel and titanium) and does not include the coating applied to the frit.

A biocompatible tube and fitting system that can be used in a liquid chromatography system is described. The tube can have a polymer tip and can be used in conjunction with one or more fitting assembly.

The invention is a method for estimating a retention time of a particle in a chromatography column, and more particularly in a chromatography column one parameter of which, such as temperature, is modulated. The retention time is estimated on a probabilistic basis by sequentially modelling the transit of the particle in the column. When this stochastic approach is adopted for a set of particles of a given type, it allows a statistical distribution of the retention time in the column to be determined.

A chromatography column comprises a pipe that contains a tubular metal casing with an inlay and sealing ring. The inlay is configured as a plastics material tube and is pushed or drawn into the metal casing and a sealing ring of plastics material is connected to the inlay at the end. Because of this structure, a connection to further system parts is possible, which is carry-over-free, inert on the inside, liquid-tight, optionally gas-tight, and pressure-tight. A connection element and connection connect the pipe to feed and/or discharge lines of a capillary system. Pipes, connection elements and connections of this type are advantageously used in low and high pressure systems, such as, for example, in an HPLC column. The use of such systems is advantageous in in-vitro diagnostics and in liquid handling applications.

This invention relates to a column (1) for binding a cell, the column (1) comprising a column body comprising a retention volume comprising a stationary phase, wherein preferably the stationary phase is an affinity chromatography matrix; at least one open end for adding or removing the cell to or from the column (1); and at least one obstacle within the column body, wherein the at least one obstacle is a grid or a pin; optionally wherein the column has a first open end and a second open end arranged opposite to each other on the column. The present invention also relates to a system of columns (1). The present invention also relates to a method for binding a cell.