Compositions and methods for repelling arthropods. The compositions include a carrier and an arthropod repelling compound, which can be a compound discovered by a novel and complex cheminformatic process to demonstrate repellency behavior across a broad spectrum of arthropods. The compound can be a thiane compound, a pyrrolidone compound, a cyclohexadiene compound, a cyclohexenone compound, a cyclohexene compound, a furanone compound, a pyran compound, a tetrahydropyran compound, a thiazolidine compound, a thiazoline compound, a dihydrothiophene compound, a dithiolane compound, a dithiane compound, an epoxide compound, an oxathiane compound, a cyclopentene compound, a cyclohexane compound, a quinoline compound, an oxazoline compound, a tetrahydropyridine compound, and an imidazolidinone compound, or a combination thereof.

Compositions and methods for repelling arthropods. The compositions include a carrier and an arthropod repelling compound, which can be a compound discovered by a novel and complex cheminformatic process to demonstrate repellency behavior across a broad spectrum of arthropods. The compound can be a thiane compound, a pyrrolidone compound, a cyclohexadiene compound, a cyclohexenone compound, a cyclohexene compound, a furanone compound, a pyran compound, a tetrahydropyran compound, a thiazolidine compound, a thiazoline compound, a dihydrothiophene compound, a dithiolane compound, a dithiane compound, an epoxide compound, an oxathiane compound, a cyclopentene compound, a cyclohexane compound, a quinoline compound, an oxazoline compound, a tetrahydropyridine compound, and an imidazolidinone compound, or a combination thereof.

Compositions and methods for increasing the efficacy of pesticidal compositions are described herein, including synergistic pesticidal compositions comprising a pesticidal active ingredient and a C4-C10 saturated or unsaturated aliphatic acid or an agriculturally compatible salt thereof and methods for delivery of said pesticidal compositions. Some pesticidal compositions and methods as described are directed to compositions and methods for increasing the efficacy of fungicides. Some pesticidal compositions and methods as described are directed to compositions and methods for increasing the efficacy of nematicides. Some pesticidal compositions and methods as described are directed to compositions and methods for increasing the efficacy of insecticides. Methods for enhancing the activity pesticidal active ingredients in pesticidal compositions in use are also described.

Compositions and methods for increasing the efficacy of pesticidal compositions are described herein, including synergistic pesticidal compositions comprising a pesticidal active ingredient and a C4-C10 saturated or unsaturated aliphatic acid or an agriculturally compatible salt thereof and methods for delivery of said pesticidal compositions. Some pesticidal compositions and methods as described are directed to compositions and methods for increasing the efficacy of fungicides. Some pesticidal compositions and methods as described are directed to compositions and methods for increasing the efficacy of nematicides. Some pesticidal compositions and methods as described are directed to compositions and methods for increasing the efficacy of insecticides. Methods for enhancing the activity pesticidal active ingredients in pesticidal compositions in use are also described.

Provided herein are rapid, large-scale screening methods for identifying metal-biocide combinations that are synergistically effective to kill or inhibit the growth of microorganisms. Also provided herein are novel, synergistically antimicrobial metal-biocide combinations and uses of such compositions to curb or slow microbial growth.

Provided herein are rapid, large-scale screening methods for identifying metal-biocide combinations that are synergistically effective to kill or inhibit the growth of microorganisms. Also provided herein are novel, synergistically antimicrobial metal-biocide combinations and uses of such compositions to curb or slow microbial growth.

Provided herein are rapid, large-scale screening methods for identifying metal-biocide combinations that are synergistically effective to kill or inhibit the growth of microorganisms. Also provided herein are novel, synergistically antimicrobial metal-biocide combinations and uses of such compositions to curb or slow microbial growth.

Provided herein are rapid, large-scale screening methods for identifying metal-biocide combinations that are synergistically effective to kill or inhibit the growth of microorganisms. Also provided herein are novel, synergistically antimicrobial metal-biocide combinations and uses of such compositions to curb or slow microbial growth.

Techniques regarding tracking the application coverage of an antimicrobial coating and/or monitoring the degradation of the antimicrobial coating on a surface are provided. For example, one or more embodiments described herein can comprise a method that includes forming an antimicrobial coating by mixing a first solution comprising a tracer compound with a second solution comprising an antimicrobial compound. The method can further include inhibiting growth of a microbe on a surface by applying the antimicrobial coating to the surface.

Techniques regarding tracking the application coverage of an antimicrobial coating and/or monitoring the degradation of the antimicrobial coating on a surface are provided. For example, one or more embodiments described herein can comprise a method that includes forming an antimicrobial coating by mixing a first solution comprising a tracer compound with a second solution comprising an antimicrobial compound. The method can further include inhibiting growth of a microbe on a surface by applying the antimicrobial coating to the surface.