Abstract: A method to coat hard floor surfaces to provide both anti-slip and antimicrobial protection by producing clear, thermodynamically stable, anti-slip, botanical antimicrobial microemulsions made for all renewable, non-toxic, non-corrosive ingredients is disclosed, as well as their use as 1) highly effective antimicrobial broad spectrum disinfectants/deodorants that are not hazardous to humans or animals and simultaneously 2) as anti-slip coatings for any walked-on hard floor surface.

Abstract: A method of stabilizing aqueous solutions of antimicrobial silanol quaternary ammonium compounds (SQACs) from premature polymerization where the stabilizing agent is selected from a list of antimicrobial, naturally occurring, renewable, volatile, liquid phytochemical essential oils that easily form crystal clear microemulsions when water is added to the concentrated SQAC/essential oil mixture. These non-foaming oil-in-water microemulsions have excellent long term storage stability, remain very low in viscosity and do not phase or precipitate for many months. Many essential oils found to be useful in this process are non-toxic food additives having pleasant scents, have low flammability yet are volatile enough to evaporate upon cure down of the SQAC, resulting in a higher concentration of SQAC in the cured, antimicrobial film.

Abstract: Antimicrobial treated articles and compounds. The article includes a substrate and an antimicrobial mixture of an effective amount of at least one antimicrobial silanol quaternary ammonium compound, at least one essential oil and the balance water. In one embodiment, the antimicrobial mixture is forming in a reaction medium for mixing the at least one antimicrobial silanol quaternary ammonium compound and the at least one essential oil together prior to treating the substrate.

Abstract: This invention is a process for the manufacture of water stable, antimicrobial silanol quaternary ammonium compounds (SQACs) and the trisilanol, polysiloxanol and water soluble polysiloxane derivatives thereof. The stabilizing agent is selected from a list of antimicrobial, naturally occurring, renewable phytochemical essential oils and extracts that easily form crystal clear microemulsions when water is added to the concentrated SQAC/essential oil mixture. These non-foaming oil in water microemulsions have excellent long term storage stability, are freeze/thaw stable, remain very low in viscosity and do not phase separate or precipitate for many months. Many of the essential oils found to be useful in this process are non-toxic food additives and have pleasant scents, have low flammability yet are volatile enough to evaporate upon cure down of the SQAC, thereby resulting in a higher concentration of SQAC in the cured, antimicrobial film.

Abstract: A method of stabilizing aqueous solutions of antimicrobial silanol quaternary ammonium compounds (SQACs) from premature polymerization where the stabilizing agent is selected from a list of antimicrobial, naturally occurring, renewable, volatile, liquid phytochemical essential oils that easily form crystal clear microemulsions when water is added to the concentrated SQAC/essential oil mixture. These non-foaming oil-in-water microemulsions have excellent long term storage stability, remain very low in viscosity and do not phase or precipitate for many months. Many essential oils found to be useful in this process are non-toxic food additives having pleasant scents, have low flammability yet are volatile enough to evaporate upon cure down of the SQAC, resulting in a higher concentration of SQAC in the cured, antimicrobial film.

Abstract: This invention is a process for the manufacture of water stable, partially polymerized antimicrobial silanol quaternary ammonium compounds (SQACs) and their trisilanol, polysiloxanol and water soluble polysiloxane derivatives thereof. Partial polymerization is accomplished by allowing the aqueous SQAC product solution to polymerize at conditions that will substantially convert all the chlorosilanol monomer to a copolymer of the SQAC, thus reducing the toxicity of the solution greatly. A stabilizing agent is added either before or after the partial polymerization. The stabilizing agent is selected from a list of antimicrobial, naturally occurring, renewable phytochemical essential oils and extracts that easily form crystal clear microemulsions when water is added to the concentrated SQAC/essential oil mixture. These non-foaming oil in water microemulsions have excellent long term storage stability, are freeze/thaw stable, remain very low in viscosity and do not phase separate or precipitate for many months.

Abstract: A method to coat hard floor surfaces to provide both anti-slip and antimicrobial protection by producing clear, thermodynamically stable, anti-slip, botanical antimicrobial microemulsions made for all renewable, non-toxic, non-corrosive ingredients is disclosed, as well as their use as 1) highly effective antimicrobial broad spectrum disinfectants/deodorants that are not hazardous to humans or animals and simultaneously 2) as anti-slip coatings for any walked-on hard floor surface.

Abstract: This invention is a method of eliminating the number of microorganisms on the surface of skin, hair or nails, by contacting these surfaces with a water stable, antimicrobial silanol quaternary ammonium compounds (SQACs) and the trisilanol, polysiloxanol and water soluble polysiloxane derivatives thereof. The stabilizing agent is selected from a list of volatile, antimicrobial, naturally occurring, renewable phytochemical essential oils and extracts that easily form crystal clear microemulsions when water is added to the concentrated SQAC/essential oil mixture. These non-foaming oil in water microemulsions have excellent long term storage stability, are freeze/thaw stable, remain very low in viscosity and do not phase separate or precipitate for many months.

Abstract: A method to produce clear, thermodynamically stable Botanical AntiMicrobial Microemulsions (BAMM) made from all edible ingredients is disclosed, as well as their use as highly effective antimicrobial broad spectrum disinfectants/deodorants that are not hazardous to humans or animals.

Abstract: A method of stabilizing aqueous solutions of antimicrobial silanol quaternary ammonium compounds (SQACs) from premature polymerization where the stabilizing agent is selected from a list of antimicrobial, naturally occurring, renewable, volatile, liquid phytochemical essential oils that easily form crystal clear microemulsions when water is added to the concentrated SQAC/essential oil mixture. These non-foaming oil-in-water microemulsions have excellent long term storage stability, remain very low in viscosity and do not phase or precipitate for many months. Many essential oils found to be useful in this process are non-toxic food additives having pleasant scents, have low flammability yet are volatile enough to evaporate upon cure down of the SQAC, resulting in a higher concentration of SQAC in the cured, antimicrobial film.

Abstract: This invention is a process for the manufacture of water stable, partially polymerized antimicrobial alkoxysilyl quaternary ammonium compounds and their trisilanol, polysiloxanol and water soluble polysiloxane derivatives thereof (SQACs). Partial polymerization is accomplished by allowing the aqueous SQAC product solution to polymerize at conditions that will substantially convert all the chlorosilanol monomer to a copolymer of the SQAC, thus reducing the toxicity of the solution greatly. A stabilizing agent is added either before or after the partial polymerization. The stabilizing agent is selected from a list of antimicrobial, naturally occurring, renewable phytochemical essential oils and extracts that easily form crystal clear microemulsions when water is added to the concentrated SQAC/essential oil mixture.

Abstract: This invention is a method of eliminating the number of microorganisms on the surface of skin, hair or nails, by contacting these surfaces with a water stable, antimicrobial silanol quaternary ammonium compounds (SQACs) and the trisilanol, polysiloxanol and water soluble polysiloxane derivatives thereof. The stabilizing agent is selected from a list of volatile, antimicrobial, naturally occurring, renewable phytochemical essential oils and extracts that easily form crystal clear microemulsions when water is added to the concentrated SQAC/essential oil mixture. These non-foaming oil in water microemulsions have excellent long term storage stability, are freeze/thaw stable, remain very low in viscosity and do not phase separate or precipitate for many months.

Abstract: A process to produce clear, thermodynamically stable Botanical AntiMicrobial Microemulsions (BAMM) made for all edible ingredients is disclosed, as well as their use as highly effective antimicrobial broad spectrum disinfectants/deodorants that are not hazardous to humans or animals.

Abstract: Antimicrobial treated articles and compounds. The article includes a substrate and an antimicrobial mixture of an effective amount of at least one antimicrobial silanol quaternary ammonium compound, at least one essential oil and the balance water. In one embodiment, the antimicrobial mixture is formed in a reaction medium for mixing the at least one antimicrobial silanol quaternary ammonium compound and the at least one essential oil together prior to treating the substrate.