Provided is a hybrid process for producing high-purity para-xylene from a feedstock of aromatic hydrocarbon isomer fractions having 8 carbon atoms, in a liquid phase. The process includes a liquid chromatography separation step and a crystallization step of the para-xylene from the purified stream of para-xylene obtained at the separation step.

Provided is a hybrid process for producing high-purity para-xylene from a feedstock of aromatic hydrocarbon isomer fractions having 8 carbon atoms, in a liquid phase. The process includes a liquid chromatography separation step and a crystallization step of the para-xylene from the purified stream of para-xylene obtained at the separation step.

The present disclosure relates to a method of separating a compound of interest, particularly unsaturated compound(s) of interest, from a mixture. The compound is separated using a column having a chromatographic stationary phase material for various different modes of chromatography containing a first substituent and a second substituent. The first substituent minimizes compound retention variation over time under chromatographic conditions. The second substituent chromatographically and selectively retains the compound by incorporating one or more aromatic, polyaromatic, heterocyclic aromatic, or polyheterocyclic aromatic hydrocarbon groups, each group being optionally substituted with an aliphatic group. In some examples, the present disclosure can include a chromatographic system having a chromatographic column having a stationary phase with a chromatographic substrate containing silica, metal oxide, an inorganic-organic hybrid material, a group of block copolymers, or a combination thereof.

A method for producing a chemical reactor device based on a fluid flow comprises obtaining a substrate with a fluid channel defined by a channel wall, in which an ordered set of silicon pillar structures is positioned in the fluid channel and electrochemically anodising at least the silicon pillar structures to make the silicon pillar structures porous at least to a certain depth. After the anodising, the substrate and pillar structures are thermally treated, the treatment being carried out at a temperature, with a duration and in an atmosphere such that any silicon oxide layer formed has a thickness of less than 20 nm. The substrate and the pillar structures are further functionalized.

A method for producing a chemical reactor device based on a fluid flow comprises obtaining a substrate with a fluid channel defined by a channel wall, in which an ordered set of silicon pillar structures is positioned in the fluid channel and electrochemically anodising at least the silicon pillar structures to make the silicon pillar structures porous at least to a certain depth. After the anodising, the substrate and pillar structures are thermally treated, the treatment being carried out at a temperature, with a duration and in an atmosphere such that any silicon oxide layer formed has a thickness of less than 20 nm. The substrate and the pillar structures are further functionalized.

Methods and systems are disclosed for selectively removing naturally-occurring sugars in beverages in an effective, affordable and scalable manner.

Methods and systems are disclosed for selectively removing naturally-occurring sugars in beverages in an effective, affordable and scalable manner.

The present invention provides purification strategies for sterically demanding, i.e. large and pleomorphic, infectious virus particles or VLPs derived therefrom, preferably having a measles virus scaffold to yield fractions or compositions with a significantly reduced content of contaminating host cell DNA and a reduced content of further process-related impurities. Further provided are methods of propagating and purifying infectious virus particles having a measles virus scaffold suitable to provide a preparation having a strongly reduced content of contaminating host cell DNA and a reduced content of further process-related impurities for immunogenic or anti-tumor purposes. In addition, immunogenic and vaccine compositions based on the above methods are provided. Finally, there are provided immunogenic or vaccine compositions produced by the disclosed methods, which are suitable for use in immunogenic or prophylactic vaccination treatment of a subject in need thereof.

The present invention provides purification strategies for sterically demanding, i.e. large and pleomorphic, infectious virus particles or VLPs derived therefrom, preferably having a measles virus scaffold to yield fractions or compositions with a significantly reduced content of contaminating host cell DNA and a reduced content of further process-related impurities. Further provided are methods of propagating and purifying infectious virus particles having a measles virus scaffold suitable to provide a preparation having a strongly reduced content of contaminating host cell DNA and a reduced content of further process-related impurities for immunogenic or anti-tumor purposes. In addition, immunogenic and vaccine compositions based on the above methods are provided. Finally, there are provided immunogenic or vaccine compositions produced by the disclosed methods, which are suitable for use in immunogenic or prophylactic vaccination treatment of a subject in need thereof.

A porous chiral material of formula [M(L).sub.1.5(A)].sup.+X.sup. wherein M is a metal ion; L is a nitrogen-containing bidentate ligand; A is the anion of mandelic acid or a related acid; and X.sup. is an anion.