The present invention relates to a conjugate suitable for topical application to the skin of a user, the conjugate comprising at least one volatile active coupled directly or indirectly to a carrier substance, wherein the carrier substance is substantially resistant to permeation through the skin of a user under ambient conditions, and wherein the coupling between the active and the carrier substance is such that said coupling is cleaved under said ambient conditions when said conjugate has been applied to the skin of a user, so as to release said volatile active from said carrier substance in a sustained release manner. The present invention also relates to a composition including such a conjugate and also processes of preparing such conjugates and compositions.

This disclosure relates to a method for the control or repellency of biting arthropods. The method comprises bringing the biting arthropods into contact with a biting arthropod repellent formulation. The biting arthropod repellent formulation comprises nootkatone in combination, or in synergistic combination, with skin or plant derived compounds and compounds structurally similar to them (e.g., ketones, cyclic ketones, esters, gamma or delta lactones, and branched and/or unsaturated carboxylic acids), and/or one or more repellents selected from the group consisting of DEET®, para-menthane-3,8-diol (PMD), Picaridin, ethyl 3-[acetyl(butyl)amino]propanoate (IR3535), and other nitrogen-containing repellents including amines, amides, and nitrogen-containing heterocyclic compounds. This disclosure also relates to a biting arthropod repellent formulation comprising nootkatone in combination, or in synergistic combination, with the skin or plant derived compounds and compounds structurally similar to them, and/or the one or more repellents.

This disclosure relates to a method for the control or repellency of biting arthropods. The method comprises bringing the biting arthropods into contact with a biting arthropod repellent formulation. The biting arthropod repellent formulation comprises nootkatone in combination, or in synergistic combination, with skin or plant derived compounds and compounds structurally similar to them (e.g., ketones, cyclic ketones, esters, gamma or delta lactones, and branched and/or unsaturated carboxylic acids), and/or one or more repellents selected from the group consisting of DEET®, para-menthane-3,8-diol (PMD), Picaridin, ethyl 3-[acetyl(butyl)amino]propanoate (IR3535), and other nitrogen-containing repellents including amines, amides, and nitrogen-containing heterocyclic compounds. This disclosure also relates to a biting arthropod repellent formulation comprising nootkatone in combination, or in synergistic combination, with the skin or plant derived compounds and compounds structurally similar to them, and/or the one or more repellents.

This disclosure relates to a method for the control or repellency of biting arthropods. The method comprises bringing the biting arthropods into contact with a biting arthropod repellent formulation. The biting arthropod repellent formulation comprises nootkatone in combination, or in synergistic combination, with skin or plant derived compounds and compounds structurally similar to them (e.g., ketones, cyclic ketones, esters, gamma or delta lactones, and branched and/or unsaturated carboxylic acids), and/or one or more repellents selected from the group consisting of DEET®, para-menthane-3,8-diol (PMD), Picaridin, ethyl 3-[acetyl(butyl)amino]propanoate (IR3535), and other nitrogen-containing repellents including amines, amides, and nitrogen-containing heterocyclic compounds. This disclosure also relates to a biting arthropod repellent formulation comprising nootkatone in combination, or in synergistic combination, with the skin or plant derived compounds and compounds structurally similar to them, and/or the one or more repellents.

A synergistic microbicidal composition comprising: (a) at least one microbicide selected from the group consisting of a monosubstituted phenol and an isopropyl methyl phenol; and (b) at least one microbicide selected from the group consisting of substituted cyclohexyl propyl-1,3-diols, propen-2yl-methyl cyclohexanols and menthadiene alcohols.

A synergistic microbicidal composition comprising: (a) at least one microbicide selected from the group consisting of a monosubstituted phenol and an isopropyl methyl phenol; and (b) at least one microbicide selected from the group consisting of substituted cyclohexyl propyl-1,3-diols, propen-2yl-methyl cyclohexanols and menthadiene alcohols.

A synergistic microbicidal composition comprising: (a) at least one microbicide selected from the group consisting of a monosubstituted phenol and an isopropyl methyl phenol; and (b) at least one microbicide selected from the group consisting of substituted cyclohexyl propyl-1,3-diols, propen-2yl-methyl cyclohexanols and menthadiene alcohols.

Provided herein are screening methods for identifying compounds for use as an arthropod repellent based on the masking or inhibition of the detection of the skin odor by a cpA neuron. Provided herein are also screening methods for identifying compounds for use as an arthropod attractant based on activation of the cpA neuron. Further provided are one or more compounds identified using the screening methods described herein, and compositions containing such compounds.

Provided herein are screening methods for identifying compounds for use as an arthropod repellent based on the masking or inhibition of the detection of the skin odor by a cpA neuron. Provided herein are also screening methods for identifying compounds for use as an arthropod attractant based on activation of the cpA neuron. Further provided are one or more compounds identified using the screening methods described herein, and compositions containing such compounds.

Certain components of citrus fruits and oxidation products of limonene are effective deterrents, repellents and/or spatial inhibitors for mosquitoes and biting midges. The compounds that have been found to be deterrents, repellents and inhibitors for mosquitoes and biting midges are neryl acetate, citronellyl acetate, geranyl acetate, hydroxy-p-cymene, citral, α-terpineol, citronellal, linaloyl acetate, citronellol, terpen-4-ol, tetrahydrocarvone, products of oxidized oxidized limonene inclusive of d- and l-carvone, (+) limonene oxide, (−) limonene oxide, cis and trans carveol, a diol and an aldehyde, and mixtures thereof.