Abstract: The invention describes a multistage process, for producing particles with an average particle size from 50 nm to 1000 nm in a very effective and gentle manner, wherein the solid substance (active substance) is dissolved in a solvent, this liquid containing the solid substance (active substance) in dissolved form is then frozen very rapidly, the solvent/solvents used are optionally removed from the frozen matrix obtained in a (freeze-)drying process (lyophilization) or the frozen matrix is further processed directly, the solid matrix (frozen or lyophilized) is dispersed in an external phase, a liquid medium, which can be water, a mixture of water with water-miscible liquids or a non-aqueous liquid, and the resulting dispersion is then immediately exposed to high shear and/or cavitation forces, and the forces applied result in stabilization or comminution of the resulting particles in the nanometer range.

Abstract: Disclosed are methods and devices for producing very fine particles which are then coated with protective polymers in another step of the process. The particles are produced using a method in which a liquid flow comprising a particle-free liquid 1 that contains the active substance in a dissolved form is combined with a second liquid flow comprising a liquid 2 in a high-energy zone or no sooner than two seconds before reaching the high-energy zone. Said two liquids can be mixed with each other while the active substance dissolved in liquid 1 is insoluble or more difficult to dissolve in liquid 2 than in liquid 1 and settles in the form of particles in the high-energy zone or within a maximum of 2 seconds before reaching the high-energy zone when the two liquids are mixed. The obtained particles are introduced into an aqueous outer phase which contains the coating materials in a dissolved form and are then subjected to a drying step such that said materials settle on the particles as a closed coating.

Abstract: The invention concerns a method for producing ultrafine suspensions, characterized in that a substance in the form of a solid product at 20° C. is dissolved in a solvent, in that the solvent is very rapidly substantially drawn from said solution, in that the powder thus obtained, whereof the particles have an average particle-size distribution of the order of 1 to 50 ?m (by laser diffractometry) is dispersed in a dispersing medium, and in that the resulting suspension is treated subsequently, using average to high forces, so as to obtain a suspension whereof the solid matter particles have a average particle-size distribution (by photon correlation spectroscopy) less than 3 ?m, preferably less than 1 ?m (1000 nm), and in particular less than 400 nm, more particularly still, less than 200 nm.

Abstract: Disclosed are methods and devices for producing very fine particles which are then coated with protective polymers in another step of the process. The particles are produced using a method in which a liquid flow comprising a particle-free liquid 1 that contains the active substance in a dissolved form is combined with a second liquid flow comprising a liquid 2 in a high-energy zone or no sooner than two seconds before reaching the high-energy zone. Said two liquids can be mixed with each other while the active substance dissolved in liquid 1 is insoluble or more difficult to dissolve in liquid 2 than in liquid 1 and settles in the form of particles in the high-energy zone or within a maximum of 2 seconds before reaching the high-energy zone when the two liquids are mixed. The obtained particles are introduced into an aqueous outer phase which contains the coating materials in a dissolved form and are then subjected to a drying step such that said materials settle on the particles as a closed coating.

Abstract: The invention concerns a method for producing ultrafine suspensions, characterized in that a substance in the form of a solid product at 20° C. is dissolved in a solvent, in that the solvent is very rapidly substantially drawn from said solution, in that the powder thus obtained, whereof the particles have an average particle-size distribution of the order of 1 to 50 ?m (by laser diffractometry) is dispersed in a dispersing medium, and in that the resulting suspension is treated subsequently, using average to high forces, so as to obtain a suspension whereof the solid matter particles have a average particle-size distribution (by photon correlation spectroscopy) less than 3 ?m, preferably less than 1 ?m (1000 nm), and in particular less than 400 nm, more particularly still, less than 200 nm.

Abstract: The invention describes a multistage process, for producing particles with an average particle size from 50 nm to 1000 nm in a very effective and gentle manner, wherein the solid substance (active substance) is dissolved in a solvent, this liquid containing the solid substance (active substance) in dissolved form is then frozen very rapidly, the solvent/solvents used are optionally removed from the frozen matrix obtained in a (freeze-)drying process (lyophilisation) or the frozen matrix is further processed directly, the solid matrix (frozen or lyophilised) is dispersed in an external phase, a liquid medium, which can be water, a mixture of water with water-miscible liquids or a non-aqueous liquid, and the resulting dispersion is then immediately exposed to high shear and/or cavitation forces, and the forces applied result in stabilisation or comminution of the resulting particles in the nanometre range.