Disclosed is a method for synthesizing an antimicrobial base. The method comprises treating a Silver salt in a reaction mixture. The method further comprises adding one or more reactants to the reaction mixture in a pre-defined ratio. Further, the method comprises heating the reaction mixture at a first temperature between 45° C. to 90° C. for a first period of 5 to 8 hours. Furthermore, the method comprises stabilizing the conversion by adding a ligand and a stabilizing agent. Subsequently, the method comprises digesting the reaction mixture at a second temperature between 45° C. to 65° C. for a period of 2 to 4 hours to form an end product. Finally, the method comprises filtering the reaction mixture. The sub-micron particle forms a dispersion containing the colloidal silver particles (Ag.sup.0), thereby forming the antimicrobial base.

Provided is an improved herbicide formulation and an improved method of treating a crop. The herbicide formulation comprises a herbicide and a volatility reduction adjuvant comprising a salt of a volatile acid and a salt of a nonvolatile acid.

Provided is an improved herbicide formulation and an improved method of treating a crop. The herbicide formulation comprises a herbicide and a volatility reduction adjuvant comprising a salt of a volatile acid and a salt of a nonvolatile acid.

The present application is directed to a system and device for attraction of pests. This system comprises CO.sub.2-releasing microorganisms, and also nutrients specific to these microorganisms, and this system, or the device, comprises one or more biodegradable biopolymers and allows CO.sub.2, and optionally other attractants, to be released over a period of more than 20 days. Furthermore, the present application provides for the use of such a system or such a device for the attraction of pests, more particularly of maize or potato pests, such as larvae of the Western corn rootworm or wire worm. The present application is also directed, lastly, to methods for attracting pests, more particularly pests of maize or potatoes, such as the larvae of the Western corn rootworm, or for wire worms, with the systems or devices of the invention being positioned in the immediate vicinity of the plants, but preferably not directly on the plants.

The present application is directed to a system and device for attraction of pests. This system comprises CO.sub.2-releasing microorganisms, and also nutrients specific to these microorganisms, and this system, or the device, comprises one or more biodegradable biopolymers and allows CO.sub.2, and optionally other attractants, to be released over a period of more than 20 days. Furthermore, the present application provides for the use of such a system or such a device for the attraction of pests, more particularly of maize or potato pests, such as larvae of the Western corn rootworm or wire worm. The present application is also directed, lastly, to methods for attracting pests, more particularly pests of maize or potatoes, such as the larvae of the Western corn rootworm, or for wire worms, with the systems or devices of the invention being positioned in the immediate vicinity of the plants, but preferably not directly on the plants.

A stabilized active oxygen-generating antiseptic composition is disclosed including at least one of an antiseptic mixture or an antiseptic polymer. The antiseptic mixture includes a persulfate distributed in a matrix of a sulfate wherein the antiseptic composition is characterized by a ratio of the sulfate to the persulfate of at least 8:2. The antiseptic polymer is formed by the reaction of a sulfate, a persulfate, and amino acid in a reaction solution having a ratio of the sulfate to the persulfate of at least 6:4 and a ratio of the amino acid to the sulfate and the persulfate combined of 1:2 to 2:1. An antiseptic irrigation solution is disclosed including the antiseptic composition dispersed in a solvent. An antiseptic article is disclosed including an article and at least one of the antiseptic composition or an antiseptic coating formed from the antiseptic composition disposed on a surface of the article.

A stabilized active oxygen-generating antiseptic composition is disclosed including at least one of an antiseptic mixture or an antiseptic polymer. The antiseptic mixture includes a persulfate distributed in a matrix of a sulfate wherein the antiseptic composition is characterized by a ratio of the sulfate to the persulfate of at least 8:2. The antiseptic polymer is formed by the reaction of a sulfate, a persulfate, and amino acid in a reaction solution having a ratio of the sulfate to the persulfate of at least 6:4 and a ratio of the amino acid to the sulfate and the persulfate combined of 1:2 to 2:1. An antiseptic irrigation solution is disclosed including the antiseptic composition dispersed in a solvent. An antiseptic article is disclosed including an article and at least one of the antiseptic composition or an antiseptic coating formed from the antiseptic composition disposed on a surface of the article.

Described is an initial liquid composition with at least antimicrobial, antibacterial, and/or anti-viral properties comprising chelated metal oxide particles suspended in a polyol, such that metal oxide particles are homogeneously dispersed in a primarily liquid based polyol carrier so that chelated metal oxide particles form a stable complex suspension that is optionally an alkaline based aqueous silver oxide dispersion. The liquid composition can be subsequently added to any polymer or polymer compound/system where the polymer degrades or melts at a temperature lower than the polyol carrier degradation or boiling temperature. The metal oxide complex may also impart beneficial semi-conductive or conductive as well as permeability and flammability property changes to the polymer (host) system.

Described is an initial liquid composition with at least antimicrobial, antibacterial, and/or anti-viral properties comprising chelated metal oxide particles suspended in a polyol, such that metal oxide particles are homogeneously dispersed in a primarily liquid based polyol carrier so that chelated metal oxide particles form a stable complex suspension that is optionally an alkaline based aqueous silver oxide dispersion. The liquid composition can be subsequently added to any polymer or polymer compound/system where the polymer degrades or melts at a temperature lower than the polyol carrier degradation or boiling temperature. The metal oxide complex may also impart beneficial semi-conductive or conductive as well as permeability and flammability property changes to the polymer (host) system.

The present invention is directed to an agricultural composition comprising a protoporphyrinogen oxidase (PPO) inhibitor, one or more sugar alcohols and optionally, one or more auxin herbicides. The present invention is further directed to a method of controlling weeds comprising applying concurrently or sequentially a PPO inhibitor and one or more sugar alcohols, and optionally one or more auxin herbicides to the weeds or an area in need of weed control.