A composite virucidal filter media is described. The filter media comprises a fibrous substrate comprising a plurality of intermingled fibers, a low cost, nontoxic, hydrophilic polymer without acidic functional groups deposited on a surface of the fibers without the formation of a continuous coating layer on the substrate, and a virucidal metal, a virucidal metal-containing compound, or combinations thereof deposited on the surface of the fibers comprising the hydrophilic polymer without acidic functional groups. The hydrophilic polymer without acidic functional groups can be charged or non-charged. Methods of making virucidal fibrous filter media are also described.

A combination comprising a metal chlorate; and at least another herbicide, a composition comprising the same, a method of use thereof and a kit comprising the same.

A combination comprising a metal chlorate; and at least another herbicide, a composition comprising the same, a method of use thereof and a kit comprising the same.

A human odor eliminating composition is described having as ingredients silver water, zeolite, activated carbon and ozone and optionally sodium bicarbonate. The composition can be used as a concentrate or diluted with water for various applications, such as a spray, wipes, or liquid use. The composition can also be a dry powder. It can be used as an additive in soaps, detergents, hand sanitizers, and even on hunting equipment such as tents, gun cases, bags and more.

The disclosure relates to a contact fungicide used in agriculture, including particles of a magnesium product including magnesium hydroxide, the purity of which is greater than 86% by mass on a dry basis, and the particle size of which is characterized by a D50 of between 1 micron and 10 microns.

The disclosure relates to a contact fungicide used in agriculture, including particles of a magnesium product including magnesium hydroxide, the purity of which is greater than 86% by mass on a dry basis, and the particle size of which is characterized by a D50 of between 1 micron and 10 microns.

The disclosure relates to a contact fungicide used in agriculture, including particles of a magnesium product including magnesium hydroxide, the purity of which is greater than 86% by mass on a dry basis, and the particle size of which is characterized by a D50 of between 1 micron and 10 microns.

A method for killing arthropods may include providing a mineral composition to a substrate that arthropods will contact, wherein the mineral composition is not a carrier for chemical toxin. The mineral composition may include an aluminosilicate particulate, wherein contact between the mineral composition and an arthropod results in death of the arthropod. A composition for killing arthropods may include a mineral composition for associating with a substrate. The mineral composition may include at least one of an aluminosilicate particulate and a diatomaceous earth particulate, wherein the mineral composition is not a carrier for a chemical toxin. The mineral composition may have a median particle size d.sub.50 of 10 μm or less. A system for killing arthropods may include a mineral composition including at least one of an aluminosilicate particulate and a diatomaceous earth particulate. The system may further include a substrate, wherein the mineral composition is associated with the substrate.

A method for killing arthropods may include providing a mineral composition to a substrate that arthropods will contact, wherein the mineral composition is not a carrier for chemical toxin. The mineral composition may include an aluminosilicate particulate, wherein contact between the mineral composition and an arthropod results in death of the arthropod. A composition for killing arthropods may include a mineral composition for associating with a substrate. The mineral composition may include at least one of an aluminosilicate particulate and a diatomaceous earth particulate, wherein the mineral composition is not a carrier for a chemical toxin. The mineral composition may have a median particle size d.sub.50 of 10 μm or less. A system for killing arthropods may include a mineral composition including at least one of an aluminosilicate particulate and a diatomaceous earth particulate. The system may further include a substrate, wherein the mineral composition is associated with the substrate.

A method for killing arthropods may include providing a mineral composition to a substrate that arthropods will contact, wherein the mineral composition is not a carrier for chemical toxin. The mineral composition may include an aluminosilicate particulate, wherein contact between the mineral composition and an arthropod results in death of the arthropod. A composition for killing arthropods may include a mineral composition for associating with a substrate. The mineral composition may include at least one of an aluminosilicate particulate and a diatomaceous earth particulate, wherein the mineral composition is not a carrier for a chemical toxin. The mineral composition may have a median particle size d.sub.50 of 10 μm or less. A system for killing arthropods may include a mineral composition including at least one of an aluminosilicate particulate and a diatomaceous earth particulate. The system may further include a substrate, wherein the mineral composition is associated with the substrate.