Abstract: The present invention relates to a device and a method for dynamic fractionation of a dispersed phase in a fluid. The device comprises a fractionation channel and from a first to a third injection ports. A first and a second confining fluids are injectable through the first and second injection ports, respectively. An elution fluid for transporting the dispersed phase is injectable into the channel through a third injection port which is arranged between the first and second injection ports. An end portion of the channel comprises from a first to a third terminal portion respectively arranged in correspondence to the first to the third injection ports and having a geometry such that the first and second confining fluids respectively have a first and second predefined flow rate and the elution fluid have a third predefined flow rate which is larger than the first and second predefined flow rates.

Abstract: The invention relates to a coating composition for fabrics containing microfibers including a polymer and pigment within the microfibers and also to a method of coating fabrics.

Abstract: The present invention relates to a device and a method for dynamic fractionation of a dispersed phase in a fluid. The device comprises a fractionation channel and from a first to a third injection ports. A first and a second confining fluids are injectable through the first and second injection ports, respectively. An elution fluid for transporting the dispersed phase is injectable into the channel through a third injection port which is arranged between the first and second injection ports. An end portion of the channel comprises from a first to a third terminal portion respectively arranged in correspondence to the first to the third injection ports and having a geometry such that the first and second confining fluids respectively have a first and second predefined flow rate and the elution fluid have a third predefined flow rate which is larger than the first and second predefined flow rates.