An adjuvant for agrochemicals, in particular plant protection agents, comprising an oil component which is a substance selected from the group of: vegetable oil, vegetable fatty acid methyl ester, vegetable fatty acid ethyl ester, vegetable fatty acid butyl ester or mixtures thereof and a wetting component, alkalizing-compatibilizing agent comprising: an alkaline non-ionic surfactant consisting of a mixture of ethoxylated alkyl amines with a C13-15 alkyl chain length and a non-ionic surfactant from the group of vegetable polyglycerol esters of vegetable fatty acids with a carbon chain length of C12-22. The invention also relates to a foliar spray composition comprising: a plant protection agent selected from the group of herbicides, biostimulants, growth regulators or fertilizers or mixtures thereof, water and an adjuvant according to the invention. The adjuvant according to the invention is characterized by high biodegradability, is used to obtain a spray liquid with high service life and ensures high solubility of the active substances used and their high retention on the sprayed surface.

A method for forming a composition that includes mixing an antimicrobially active botanical oil (e.g., thymol, carvacrol, etc.) and a modified starch polymer within a melt blending device (e.g., extruder) is provided. Unlike the problems associated with proteins, the use of starch polymers allows for a greater degree of flexibility in the processing conditions and is still able to achieve good properties in the resulting composition. The present inventors have also discovered that a plasticizer may be employed to facilitate melt processing of the starch, as well as to enhance the ability of the botanical oil to flow into the internal structure of the starch where it can be retained in a stable manner. The composition is also typically generally free of solvents. In this manner, the starch will not generally disperse before use and prematurely release the botanical oil. Due to the water sensitivity of the modified starch, however, it may be subsequently dispersed by moisture when it is desired to release the botanical oil.

A method for forming a composition that includes mixing an antimicrobially active botanical oil (e.g., thymol, carvacrol, etc.) and a modified starch polymer within a melt blending device (e.g., extruder) is provided. Unlike the problems associated with proteins, the use of starch polymers allows for a greater degree of flexibility in the processing conditions and is still able to achieve good properties in the resulting composition. The present inventors have also discovered that a plasticizer may be employed to facilitate melt processing of the starch, as well as to enhance the ability of the botanical oil to flow into the internal structure of the starch where it can be retained in a stable manner. The composition is also typically generally free of solvents. In this manner, the starch will not generally disperse before use and prematurely release the botanical oil. Due to the water sensitivity of the modified starch, however, it may be subsequently dispersed by moisture when it is desired to release the botanical oil.

The present technology relates to botanical antimicrobial compositions that comprise various ingredients, including undecylenic acid, organic acid or solvents; and that can be used as surface cleaners, disinfectants, sanitizers, or preservatives for food or consumer products. The present technology also relates to methods of disinfecting or sanitizing surfaces, or preserving food or personal care compositions, comprising contacting such surfaces, or food or personal care compositions, with an antimicrobial composition herein.

The present technology relates to botanical antimicrobial compositions that comprise various ingredients, including undecylenic acid, organic acid or solvents; and that can be used as surface cleaners, disinfectants, sanitizers, or preservatives for food or consumer products. The present technology also relates to methods of disinfecting or sanitizing surfaces, or preserving food or personal care compositions, comprising contacting such surfaces, or food or personal care compositions, with an antimicrobial composition herein.

Provided are liquid compositions comprising inactive biopesticide precursors comprising a glucosinolate concentrate, a plant material comprising a myrosinase enzyme complex, and a water soluble polyol. Further provided are methods of making and using such compositions.

Provided are liquid compositions comprising inactive biopesticide precursors comprising a glucosinolate concentrate, a plant material comprising a myrosinase enzyme complex, and a water soluble polyol. Further provided are methods of making and using such compositions.

A plastic material for extended release of a bio-active agent, the plastic material comprising a structural polymer, at least one bio-active ingredient embedded within the structural polymer as solid islands, a liquid binding material embedded within the structural polymer as granules, and a carrier liquid absorbed within the liquid-absorbent material. The carrier liquid may be sufficiently non-compatible with the structural polymer so that at least a portion of the carrier liquid is released from the liquid-absorbent material through the structural polymer to an outer surface of the plastic material over a period of time, such as a week or more, a month or more, or about three months. The bio-active agent comprised in the at least one bio-active ingredient may be sufficiently soluble in the carrier liquid at room or body temperature so that the carrier liquid released to the outer surface comprises the bio-active agent in solution.

A plastic material for extended release of a bio-active agent, the plastic material comprising a structural polymer, at least one bio-active ingredient embedded within the structural polymer as solid islands, a liquid binding material embedded within the structural polymer as granules, and a carrier liquid absorbed within the liquid-absorbent material. The carrier liquid may be sufficiently non-compatible with the structural polymer so that at least a portion of the carrier liquid is released from the liquid-absorbent material through the structural polymer to an outer surface of the plastic material over a period of time, such as a week or more, a month or more, or about three months. The bio-active agent comprised in the at least one bio-active ingredient may be sufficiently soluble in the carrier liquid at room or body temperature so that the carrier liquid released to the outer surface comprises the bio-active agent in solution.

A wearable device for repelling head-lice is disclosed comprising a fastener for holding the device in contact with head-hair, and a container attached to the device, the container is adapted to hold an absorbent material out of contact with the head hair. The absorbent material may be suitable to absorb a lice-repellent material, and to release the lice-repellent in the form of gas.