A composition for weed control and fertilizer comprising iron hydroxyl ethylenediaminetriacetic acid, humate, microelements, soy hydrolysate, calcium lignin, a natural-based wetting agent, molasses desurgarized solubles, and water, and may further comprise glycerin and/or preservatives, are provided. Methods for weed control and fertilization of plants comprising the steps of providing a composition comprising an effective amount of iron hydroxyl ethylenediaminetriacetic acid, humate, microelements, soy hydrolysate, calcium lignin, a natural-based wetting agent, and molasses desurgarized solubles, and applying an effective amount of the composition to soil or a plant or a weed, are also provided.

Methods for rendering micellar coordination complexes for the treatment of plants, comprising the steps of mixing one or more ketoesters with other nutrients resulting in water-borne availability; applying a suitable volume of the resulting mixture to one or more plants; delivery to green plants; nutrimentally based growth of crops; and compositions for the same.

Methods for rendering micellar coordination complexes for the treatment of plants, comprising the steps of mixing one or more ketoesters with other nutrients resulting in water-borne availability; applying a suitable volume of the resulting mixture to one or more plants; delivery to green plants; nutrimentally based growth of crops; and compositions for the same.

A method of making a bacteriochlorin is carried out by condensing a pair of compounds of Formula II ##STR00001##
to produce the bacteriochlorin, wherein R is an acetal or aldehyde group. The condensing may be carried out in an organic solvent, preferably in the presence of an acid. The bacteriochlorins are useful for a variety of purposes such as active agents in photodynamic therapy, luminescent compounds in flow cytometry, solar cells, light harvesting arrays, and molecular memory devices.

A method of preparing a silicon-containing polymeric structure coated/encapsulated active ingredient is disclosed. The method has the steps of providing an insoluble active ingredient; dispersing the active ingredient in a liquid medium to form a suspension of the active ingredient; adding a silicon-containing polymeric structure precursor to the suspension; and reacting the precursor to form the silicon-containing polymeric structure. The silicon-containing polymeric structure is formed around the active ingredient, thereby forming a silicon-containing polymeric structure coated/encapsulated active ingredient. The silicon-containing polymeric structure coated/encapsulated active ingredient may be used in place of the active ingredient itself.

A method of preparing a silicon-containing polymeric structure coated/encapsulated active ingredient is disclosed. The method has the steps of providing an insoluble active ingredient; dispersing the active ingredient in a liquid medium to form a suspension of the active ingredient; adding a silicon-containing polymeric structure precursor to the suspension; and reacting the precursor to form the silicon-containing polymeric structure. The silicon-containing polymeric structure is formed around the active ingredient, thereby forming a silicon-containing polymeric structure coated/encapsulated active ingredient. The silicon-containing polymeric structure coated/encapsulated active ingredient may be used in place of the active ingredient itself.

The invention relates to the use of bismuth subsalicylate or one of the derivatives thereof as a phytopharmaceutical agent, in particular for the treatment or prevention of fungal diseases in plants.

The invention relates to the use of bismuth subsalicylate or one of the derivatives thereof as a phytopharmaceutical agent, in particular for the treatment or prevention of fungal diseases in plants.

Disclosed is an antibiotic aqueous dispersion composition including as an active ingredient zinc pyrithione and, at least one subsidiary antiseptic selected from the group consisting of thiamine dilauryl sulphate (TDS), a salt and glyceryl monoalkyl ether. The composition has excellent stability and wide antibiotic or antiseptic spectra to bacteria and fungus.

Disclosed is an antibiotic aqueous dispersion composition including as an active ingredient zinc pyrithione and, at least one subsidiary antiseptic selected from the group consisting of thiamine dilauryl sulphate (TDS), a salt and glyceryl monoalkyl ether. The composition has excellent stability and wide antibiotic or antiseptic spectra to bacteria and fungus.