Abstract: The present invention relates to new, highly efficient synergistic compositions comprising mixtures of essential oils, metal ions, detergents and organic acids in combination with plant protection agents. That is, applied as an adjuvans or additive, said mixtures significantly increase the efficacy and biocompatibility of conventional plant protection agents for plant protection products. The new synergistic composition thereby allows significant reduction of active ingredients of conventional plant protection agents.
Abstract: The present invention relates to new, highly efficient anti-microbial compositions comprising essential oils, metal ions, organic acids and detergents. Bacteria-containing samples treated with the complete synergistic disinfecting composition according to the invention (A or B or C or D+O) do not show any living cell colonies, indicating that under these conditions all microorganisms were killed. Thus it is proven that the synergistic mixtures of the compounds according to the invention show a very effective antimicrobial effect.
Abstract: The present invention relates to new, highly efficient synergistic compositions comprising mixtures of essential oils, metal ions, detergents and organic acids in combination with plant protection agents. That is, applied as an adjuvans or additive, said mixtures significantly increase the efficacy and biocompatibility of conventional plant protection agents for plant protection products. The new synergistic composition thereby allows significant reduction of active ingredients of conventional plant protection agents.
Abstract: The present invention relates to new, highly efficient anti-microbial compositions comprising essential oils, metal ions, organic acids and detergents. Bacteria-containing samples treated with the complete synergistic disinfecting composition according to the invention (A or B or C or D+O) do not show any living cell colonies, indicating that under these conditions all microorganisms were killed. Thus it is proven that the synergistic mixtures of the compounds according to the invention show a very effective antimicrobial effect.
Abstract: The invention concerns a three component system comprising surface-active substances, vitamins and metal ions for efficient destruction and removal of contaminating proteins, nucleic acids and microorganisms from surfaces like for example laboratory benches, floors, equipment and instruments. These non-corrosive and non-toxic solutions for removal of proteins, nucleic acids and microorganisms are applied by spraying, rubbing or immersion of contaminated surfaces thereby destroying, solubilizing inactivating and removing proteins and nucleic acids. In that way also microorganisms are killed with high efficiency and at the same time all genetic information is inactivated.
Type:
Application
Filed:
April 21, 2013
Publication date:
September 19, 2013
Applicant:
MULTIBIND BIOTEC GMBH
Inventors:
Thomas Lisowsky, Karlheinz Esser, Richard Lisowsky
Abstract: The invention relates to the use of a composition comprising a vitamin, a metal ion, and a surfactant, as a therapeutic agent or disinfectant. The composition has been known as a decontaminant because the same efficiently decomposes DNA. It has now been possible to demonstrate that the agent has surprisingly good compatibility while having a wide-ranging disinfecting effect and is therefore also suitable for other purposes, e.g., for disinfecting or dressing wounds.
Abstract: The invention concerns a three component system comprising surface-active substances, vitamins and metal ions for efficient destruction and removal of contaminating proteins, nucleic acids and microorganisms from surfaces like for example laboratory benches, floors, equipment and instruments. These non-corrosive and non-toxic solutions for removal of proteins, nucleic acids and microorganisms are applied by spraying, rubbing or immersion of contaminated surfaces thereby destroying, solubilizing inactivating and removing proteins and nucleic acids. In that way also microorganisms are killed with high efficiency and at the same time all genetic information is inactivated.
Type:
Application
Filed:
May 2, 2006
Publication date:
January 29, 2009
Applicant:
MULTIBIND BIOTEC GMBH
Inventors:
Thomas Lisowsky, Karlheinz Esser, Richard Lisowsky