Provided is a chromatography stationary phase having an excellent molecule discriminating ability. Specifically, provided is a chromatography stationary phase including a carrier carrying a copolymer that has a pyrrolidone backbone or a piperidone backbone, and an imide backbone in a repeating unit of the main chain.

Provided is a chromatography stationary phase having an excellent molecule discriminating ability. Specifically, provided is a chromatography stationary phase including a carrier carrying a copolymer that has a pyrrolidone backbone or a piperidone backbone, and an imide backbone in a repeating unit of the main chain.

In an aspect, a method for forming a microcolumn comprises steps of: (a) providing a sacrificial fiber; (b) forming a microcolumn body around said sacrificial fiber; and (c) removing said sacrificial fiber from said microcolumn body such that a hollow channel is formed within said microcolumn body via removal of said sacrificial fiber. In any embodiment of the methods disclosed herein for forming a microcolumn, said hollow channel extends through said microcolumn body and is continuous between a first end and a second end. The first end may be an inlet and the second end may be an outlet, for example, allowing for a mobile phase to enter the hollow channel via the first end and exit via the second end.

In an aspect, a method for forming a microcolumn comprises steps of: (a) providing a sacrificial fiber; (b) forming a microcolumn body around said sacrificial fiber; and (c) removing said sacrificial fiber from said microcolumn body such that a hollow channel is formed within said microcolumn body via removal of said sacrificial fiber. In any embodiment of the methods disclosed herein for forming a microcolumn, said hollow channel extends through said microcolumn body and is continuous between a first end and a second end. The first end may be an inlet and the second end may be an outlet, for example, allowing for a mobile phase to enter the hollow channel via the first end and exit via the second end.

Methods for isolating proteins from a honey sample are provided. The methods include contacting the honey sample with a substrate functionalized with one or more reactive dyes and recovering proteins associated with the substrate. Methods for detecting proteins in a honey sample and assessing the risk of colony collapse disorder are also provided.

Methods for isolating proteins from a honey sample are provided. The methods include contacting the honey sample with a substrate functionalized with one or more reactive dyes and recovering proteins associated with the substrate. Methods for detecting proteins in a honey sample and assessing the risk of colony collapse disorder are also provided.

The present invention provides a chromatography medium comprising one or more electrospun polymer nanofibres which in use form a stationary phase comprising a plurality of pores through which a mobile phase can permeate and use of the same.

The present invention provides a chromatography medium comprising one or more electrospun polymer nanofibres which in use form a stationary phase comprising a plurality of pores through which a mobile phase can permeate and use of the same.

The present invention provides a process for preparing a functionalised polymeric chromatography medium, which process comprises (I) providing two or more non-woven sheets stacked one on top of the other, each said sheet comprising one or more polymer nanofibres, (II) simultaneously heating and pressing the stack of sheets to fuse points of contact between the nanofibres of adjacent sheets, and (III) contacting the pressed and heated product with a reagent which functionalises the product of step (II) as a chromatography medium.

The present invention provides a process for preparing a functionalised polymeric chromatography medium, which process comprises (I) providing two or more non-woven sheets stacked one on top of the other, each said sheet comprising one or more polymer nanofibres, (II) simultaneously heating and pressing the stack of sheets to fuse points of contact between the nanofibres of adjacent sheets, and (III) contacting the pressed and heated product with a reagent which functionalises the product of step (II) as a chromatography medium.