The present invent ion concerns a method for preparing a fatty amidoalkyldialkylamine by reacting a fatty acid with a dialkylaminoalkylamine, using a molar ratio of said dialkylaminoalkylamine to said fatty acid of more than 1 and up to 1.5, in the presence of Candida antarctica lipase as catalyst.

The present invent ion concerns a method for preparing a fatty amidoalkyldialkylamine by reacting a fatty acid with a dialkylaminoalkylamine, using a molar ratio of said dialkylaminoalkylamine to said fatty acid of more than 1 and up to 1.5, in the presence of Candida antarctica lipase as catalyst.

Hydrogel compositions including a polymer uniformly embedded with a loading agent are provided. Also provided are methods for extrusion printing hydrogel compositions to provide extruded hydrogel compositions, which can be crosslinked to provide crosslinked hydrogel structures. Also provided are methods for using crosslinked hydrogel structures in chemical processes.

In one aspects of the invention, a microcapsule includes a film encapsulating a material. The film is formed by complexation of at least two mutually attractive components initially present in an aqueous dispersion comprising a continuous phase and a dispersed phase. The at least one first component is initially present in the continuous phase and the at least one second component is initially present in the dispersed phase. According to another aspect of the invention, provided is a process for forming microcapsules including the step of injecting a dispersed phase having at least a first component into a continuous phase having at least a second component, where the first component and the second component are mutually attractive, such that a film is formed by complexation of the first charged component and the second charged component.

In one aspects of the invention, a microcapsule includes a film encapsulating a material. The film is formed by complexation of at least two mutually attractive components initially present in an aqueous dispersion comprising a continuous phase and a dispersed phase. The at least one first component is initially present in the continuous phase and the at least one second component is initially present in the dispersed phase. According to another aspect of the invention, provided is a process for forming microcapsules including the step of injecting a dispersed phase having at least a first component into a continuous phase having at least a second component, where the first component and the second component are mutually attractive, such that a film is formed by complexation of the first charged component and the second charged component.

The present invention provides a method for preparing salidroside. The present invention uses β-glucoside and CoFe.sub.2O.sub.4 particles to form a cross-linked aggregate capable of effectively catalyzing the reaction of β-D-glucose and tyrosol, thereby increasing the yield of the salidroside. The steps of the preparation method of the present invention are simple and short, and the method is easy to operate and readily applicable to industrial production.

The present invention provides a method for preparing salidroside. The present invention uses β-glucoside and CoFe.sub.2O.sub.4 particles to form a cross-linked aggregate capable of effectively catalyzing the reaction of β-D-glucose and tyrosol, thereby increasing the yield of the salidroside. The steps of the preparation method of the present invention are simple and short, and the method is easy to operate and readily applicable to industrial production.

In one embodiment, a hydrogel-enzyme construct for performing high temperature enzymatic reaction on paraoxon, and/or for performing enzymatic reaction on paraoxon following exposure to high temperature, includes a hydrogel having multiple layers of poly(methacrylic acid) (PMAA) and a plurality of dPTE2 enzyme molecules. Individual dPTE2 enzyme molecules are embedded between adjacent PMAA layers and are covalently bonded with respective individual PMAA layers. The hydrogel-enzyme construct is capable of performing enzymatic reaction on the paraoxon when the paraoxon is exposed to the hydrogel-enzyme construct under a temperature condition of up to above 99° C. and below 100° C. or when the paraoxon is exposed to the hydrogel-enzyme construct after the hydrogel-enzyme construct has been heated to a temperature condition of up to 550° C., where the enzymatic reaction on the paraoxon by individual dPTE2 molecules embedded within the hydrogel occurs at a residual activity of between 20% and 100%.

This invention relates to monodisperse cross-linked polymer particles, comprising particles with a substantially smooth outer surface and an average diameter of less than 1 μm, wherein the particles are solid or porous, and wherein the coefficient of variation (CV) % of the particles, when measured by CPS disk centrifugation analysis, is less than 15%. These monodisperse cross-linked polymer particles may comprise magnetic material and are useful in various application. This invention also relates to monodisperse polymer particles for use as seed particles in the Ugelstad process.

The invention relates to a method for preparing a hydrogel type matrix comprising at least two contiguous zones with distinct stiffnesses, comprising a step to photopolymerize a solution comprising one or several polymerizable compounds and a photopolymerization initiator, by application of light onto the entire solution and at a different intensity in at least two zones of the solution, as a result of which a hydrogel matrix is obtained comprising at least two contiguous zones with distinct stiffnesses, characterized in that the photopolymerization step is done in the presence of a polymerization catalyst.