Disclosed herein are novel pesticide compounds and compositions. In particular, pesticide compositions comprising one or more pesticide volatile organic compounds (VOCs) are disclosed, wherein the pesticide is for Drosophila spp. and the one or more pesticide VOCs have the molecular formula C.sub.aH.sub.bO.sub.c wherein: a is between 4 and 13; b is 6, 8, 10, 12, 14, 16, 18, 20, 22 or 24; c is 1 or 2. The VOCs are linear, branched or cyclic alkanes or alkenes, and comprise a single ketone, aldehyde, alcohol or ester functionality, and wherein any cyclic alkane or alkene is selected from the group consisting of cyclohexane, cyclopentane, cyclopentene and cyclopentadiene. Also disclosed are Drosophila spp. pesticide compositions comprising one or more pesticide VOCs with the molecular formula of (formula I) wherein R.sub.1 is OH or absent, and R.sub.2 is an aldehyde functional group or a linear or branched alkane or alkene with 1 to 5 carbons and a single ester functional group. Uses of the pesticide compositions according to the invention to prevent, reduce or eliminate a Drosophila spp. Infestation, and in particular a D. suzukii infestation, are also disclosed.

The protection process comprises transporting vegetable products (1) in an enclosure (3), a phyto-protective treatment being applied simultaneously by placing a quantity of a porous mineral or vegetable material (5) inside said enclosure (3), in which a liquid containing an essential oil or a constituent of an essential oil is absorbed; the porous mineral or vegetable material (5) having a liquid absorption capacity of between 5% and 30% by weight at 20° C.; the evaporation rate of the liquid absorbed in the porous mineral or vegetable material (5) being between 10 and 200 g per day and per kg of absorbed liquid at a temperature suitable for the preservation of the vegetable products and at atmospheric pressure; the porous mineral or vegetable material (5) being arranged inside at least one openwork container (7) allowing an internal atmosphere of the enclosure (3) to circulate through the openwork container (7) in contact with the porous mineral or vegetable material (5).

The protection process comprises transporting vegetable products (1) in an enclosure (3), a phyto-protective treatment being applied simultaneously by placing a quantity of a porous mineral or vegetable material (5) inside said enclosure (3), in which a liquid containing an essential oil or a constituent of an essential oil is absorbed; the porous mineral or vegetable material (5) having a liquid absorption capacity of between 5% and 30% by weight at 20° C.; the evaporation rate of the liquid absorbed in the porous mineral or vegetable material (5) being between 10 and 200 g per day and per kg of absorbed liquid at a temperature suitable for the preservation of the vegetable products and at atmospheric pressure; the porous mineral or vegetable material (5) being arranged inside at least one openwork container (7) allowing an internal atmosphere of the enclosure (3) to circulate through the openwork container (7) in contact with the porous mineral or vegetable material (5).

An energized assembly to enhance efficacy of a treatment agent in a local environment. The assembly includes an emanator or holder element to hold treatment agent, and a flameless energizing source to energize the treatment agent and thereby, place the treatment agent into an enhanced operational state. Preferred embodiments operate for a period of time of between about 4 and 8 hours, and can then be discarded. Typically, a housing associates the treatment agent and the energizing source. Embodiments may sometimes include one or more of: a gas-tight boundary element, a thermal transfer element, a trigger mechanism, a safety mechanism, a termination mechanism, a time-delay mechanism, solidized treatment agent to avoid spills, and a sequestering arrangement to avoid premature combination of reactants.

A diffusion apparatuses comprising a decorative element, namely a bracelet, necklace or other like decorative element that may be worn by a user thereof, diffuses substances therefrom, specifically through one or more valves. The decorative element preferably comprises a reservoir having a substance to be diffused through a tube running through the decorative element, and configured to be diffused through the one or more valves on a surface of the decorative element. Methods of using the same are further provided.

A diffusion apparatuses comprising a decorative element, namely a bracelet, necklace or other like decorative element that may be worn by a user thereof, diffuses substances therefrom, specifically through one or more valves. The decorative element preferably comprises a reservoir having a substance to be diffused through a tube running through the decorative element, and configured to be diffused through the one or more valves on a surface of the decorative element. Methods of using the same are further provided.

The present application relates to large-scale methods of uniformly coating packaging surfaces with a benzoxaborole compound.

The present application relates to large-scale methods of uniformly coating packaging surfaces with a benzoxaborole compound.

The present application relates to large-scale methods of uniformly coating packaging surfaces with a benzoxaborole compound.

A disinfectant method and device produces a disinfectant smoke. The smoke contains reaction products of the initiator compound, sometimes with an additional disinfectant agent. A composition for the non-pyrotechnic generation of the smoke includes a monomer that exothermically polymerizes, an initiator, and a disinfectant agent. A non-pyrotechnic method of generating disinfectant-containing smoke is provided, which includes initiating a frontal polymerization reaction (FPR) in a composition for the non-pyrotechnic generation of disinfectant-containing smoke, and generating disinfectant smoke. A method of disinfecting an area is provided, involving initiating an FPR to generate disinfectant smoke, and exposing the area to the smoke for a period of time sufficient to achieve disinfection. A non-pyrotechnic smoke generator for generating a disinfectant smoke is provided, including the smoke-generating composition comprising and one of either a heat source or a light source positioned to heat or illuminate the composition.