The present invention relates generally low volatility herbicidal compositions comprising at least one auxin herbicide and at least one monocarboxylic acid, or monocarboxylate thereof. The invention further relates generally to methods for preparing and using such low volatility herbicidal compositions, including methods for controlling auxin-susceptible plant growth on agricultural and non-agricultural lands.

A gold(III) complex, a conjugate of the gold(iII) complex, a pharmaceutical composition comprising the gold(III) complex and uses and a process for preparing the gold(III) complex. The complex comprises a group of (ŜC)-cyclometallated gold(III) complexes containing a 1,1-dithio ligand, which exhibit antibacterial activity against multiresistant microorganisms or against biofilm activity or biofilm disruption. The gold(III) complex has efficacy against a variety of microorganisms and low toxicity.

A gold(III) complex, a conjugate of the gold(iII) complex, a pharmaceutical composition comprising the gold(III) complex and uses and a process for preparing the gold(III) complex. The complex comprises a group of (ŜC)-cyclometallated gold(III) complexes containing a 1,1-dithio ligand, which exhibit antibacterial activity against multiresistant microorganisms or against biofilm activity or biofilm disruption. The gold(III) complex has efficacy against a variety of microorganisms and low toxicity.

This invention relates to a storage stable, aqueous, herbicidal formulation containing an ultra-high concentration of glyphosate in the isopropylamine, potassium or mixed salt form in combination with a surfactant system, to a method of making the formulation, and to a method of treating unwanted vegetation employing the formulation. The surfactant system employed in the concentrate comprises dialkoxylated alkylamine, water miscible solubilizer and amine oxide. The surfactant system unexpectedly permits the formulation of storage stable, ultra-high loaded aqueous glyphosate salt concentrates possessing high or no cloud points.

This invention relates to a storage stable, aqueous, herbicidal formulation containing an ultra-high concentration of glyphosate in the isopropylamine, potassium or mixed salt form in combination with a surfactant system, to a method of making the formulation, and to a method of treating unwanted vegetation employing the formulation. The surfactant system employed in the concentrate comprises dialkoxylated alkylamine, water miscible solubilizer and amine oxide. The surfactant system unexpectedly permits the formulation of storage stable, ultra-high loaded aqueous glyphosate salt concentrates possessing high or no cloud points.

The present invention discloses a material for an absorbent article, the material having an organic hydrophobic antimicrobial agent and a hydrophilic non-volatile organic solvent. The material for an absorbent article is preferably manufactured by a method having a step of applying an antimicrobial agent solution to a material for an absorbent article, the antimicrobial agent solution being formed by dissolving an organic hydrophobic antimicrobial agent in a hydrophilic non-volatile organic solvent. The present invention also discloses an absorbent article in which the material for an absorbent article is used. The absorbent article is preferably manufactured by using a method having a step of making an absorbent core contain an antimicrobial agent solution formed by dissolving an organic hydrophobic antimicrobial agent in a hydrophilic non-volatile organic solvent.

The present invention discloses a material for an absorbent article, the material having an organic hydrophobic antimicrobial agent and a hydrophilic non-volatile organic solvent. The material for an absorbent article is preferably manufactured by a method having a step of applying an antimicrobial agent solution to a material for an absorbent article, the antimicrobial agent solution being formed by dissolving an organic hydrophobic antimicrobial agent in a hydrophilic non-volatile organic solvent. The present invention also discloses an absorbent article in which the material for an absorbent article is used. The absorbent article is preferably manufactured by using a method having a step of making an absorbent core contain an antimicrobial agent solution formed by dissolving an organic hydrophobic antimicrobial agent in a hydrophilic non-volatile organic solvent.

A gold(III) complex, a conjugate of the gold(iII) complex, a pharmaceutical composition comprising the gold(III) complex and uses and a process for preparing the gold(III) complex. The complex comprises a group of (S{circumflex over ()}C)-cyclometallated gold(III) complexes containing a 1,1-dithio ligand, which exhibit antibacterial activity against multiresistant microorganisms or against biofilm activity or biofilm disruption. The gold(III) complex has efficacy against a variety of microorganisms and low toxicity.

A gold(III) complex, a conjugate of the gold(iII) complex, a pharmaceutical composition comprising the gold(III) complex and uses and a process for preparing the gold(III) complex. The complex comprises a group of (S{circumflex over ()}C)-cyclometallated gold(III) complexes containing a 1,1-dithio ligand, which exhibit antibacterial activity against multiresistant microorganisms or against biofilm activity or biofilm disruption. The gold(III) complex has efficacy against a variety of microorganisms and low toxicity.

Solvent formulations under EC form comprising (% by weight): 10-40% of one or more compounds having an insecticidal activity selected from the organophosphate class; 1-20% of an additive (A) methyl or ethyl esters of carboxylic acids having a C.sub.10-C.sub.20 chain, saturated or unsaturated, or mixtures thereof, the fatty acids deriving from vegetal oils; 0.5-10% of an additive B) of a cellulose derivative soluble in the organic solvent of EC formulation; 3-15% of one or more surfactants selected from non ionic and anionic surfactants, or thereof mixtures; the complement to 100% being of one or more organic solvents having the following characteristics: capable to solubilize the active principle, expressed as % by weight, at room temperature (20-25 C.) for at least 5%; preferably 10%, more preferably at least 20%, immiscible with water.