There is described a composition comprising a microparticle component and a highly potent active agent encapsulated in the microparticle.

A method for obtaining self-cleaning and self-sanitizing surfaces of finished leather, comprising the steps of deposition of two coating layers containing respective active mixtures on the finished leather surface, in which a first active mixture comprises a film-forming compound based on polymers and filler, a flow additive compound, a cross-linking compound, an anti-oxidant compound and an aqueous dispersion, and a second active mixture comprises a water-based auxiliary flow additive compound, a silicone emulsion, a solvent aliphatic prepolymer, a photo-catalyst compound, a water repellent agent, a biocide action powder agent and solvent agents and/or wetting agents and/or dispersing agents and/or anti-foam agents.

A method for obtaining self-cleaning and self-sanitizing surfaces of finished leather, comprising the steps of deposition of two coating layers containing respective active mixtures on the finished leather surface, in which a first active mixture comprises a film-forming compound based on polymers and filler, a flow additive compound, a cross-linking compound, an anti-oxidant compound and an aqueous dispersion, and a second active mixture comprises a water-based auxiliary flow additive compound, a silicone emulsion, a solvent aliphatic prepolymer, a photo-catalyst compound, a water repellent agent, a biocide action powder agent and solvent agents and/or wetting agents and/or dispersing agents and/or anti-foam agents.

Granular compositions comprising at least one herbicide that inhibits microtubule assembly, at least one herbicide that inhibits cell wall synthesis, and a surfactant, and methods for making and using such compositions, are generally described.

Granular compositions comprising at least one herbicide that inhibits microtubule assembly, at least one herbicide that inhibits cell wall synthesis, and a surfactant, and methods for making and using such compositions, are generally described.

The invention relates to an antimicrobial surfactant complexed with a nanomaterial. The surfactant can be a quaternary ammonium cationic surfactant which is coated on the surface of a nanomaterial such as a silica nanoparticle or a carbon nanotube.

The invention relates to an antimicrobial surfactant complexed with a nanomaterial. The surfactant can be a quaternary ammonium cationic surfactant which is coated on the surface of a nanomaterial such as a silica nanoparticle or a carbon nanotube.

The present invention relates to a hydrophobic antimicrobial agent comprising a mineral material, which is surface coated with a copper and/or silver salt of at least one fatty acid, a method for its manufacture, wherein at least one fatty acid and at least one copper and/or silver salt are dissolved in a non-aqueous solvent, the solutions are combined, the copper and/or silver salt of the at east one fatty acid is precipitated by adding water, separated, and surface coated onto the mineral material. Furthermore, the present invention relates to the hydrophobic antimicrobial agent obtained by said method, the use thereof as a filler, products comprising the hydrophobic antimicrobial agent, and the use of a copper and/or silver salt of at least one fatty acid for surface coating a mineral material.

The present invention relates to a hydrophobic antimicrobial agent comprising a mineral material, which is surface coated with a copper and/or silver salt of at least one fatty acid, a method for its manufacture, wherein at least one fatty acid and at least one copper and/or silver salt are dissolved in a non-aqueous solvent, the solutions are combined, the copper and/or silver salt of the at east one fatty acid is precipitated by adding water, separated, and surface coated onto the mineral material. Furthermore, the present invention relates to the hydrophobic antimicrobial agent obtained by said method, the use thereof as a filler, products comprising the hydrophobic antimicrobial agent, and the use of a copper and/or silver salt of at least one fatty acid for surface coating a mineral material.

The invention relates to the use of an organometallic coordination complex or its phytopharmaceutically acceptable salt of a M.sup.m+ metal and of at least one L ligand, where M.sup.m+ is a transition metal having an oxidation number m, L is a ligand of general formula (VII) or its anion, wherein R.sup.1 is selected from the group consisting of oxygen, mono or polycyclic alkyl, naphthalene residue, anthracene residue and their hydroxylated or ketone derivatives; R.sup.2 and R.sup.3 are identical or different and are selected independently of each other from hydrogen, halogen, a hydroxyl group, an alkoxy group, a linear or branched alkyl group, a cycloalkyl group or R.sup.2 and R.sup.3 together forming a benzene derivative; R.sup.6, R.sup.7 and R.sup.8 are identical or different and independently of each other are selected from hydrogen, a hydroxyl group, an alkoxy group, a linear or branched alkyl group, a cycloalkyl group, a phenyl group, an aryl group in the treatment of Xylella fastidiosa in a plant. The invention also concerns the use of the compound of formula (VII) in the treatment of Xylella fastidiosa in a plant, also in combination with the organometallic coordination complex. Advantageously, the invention concerns the treatment of olive trees.