The present invention relates to an antiviral material including a Cu-M-O compound, in which the Cu at least includes a monovalent-state Cu and the M is at least one element selected from the group consisting of B, Al, Sc, Ti, Co, Cr, Ni, Ga, Y, Zr, In, Rh, and a lanthanoid.

The present invention concerns a process for preparing a composite of porous material/compound/hybrid organic-inorganic material having a 2:1 lamellar structure, said hybrid material having the following general formula I:
Na.sub.x[(Mg.sub.3)(Al.sub.x(RSi).sub.4−x)O.sub.8+x(OH).sub.2]  (I)
wherein
x is a number such that 0≤x<1.2 and
R represents a C.sub.1-C.sub.30 alkyl group, an aryl group, a (C.sub.1-C.sub.30 alkyl)aryl group or an O—(C.sub.1-C.sub.30 alkyl) group, it being possible for the alkyl group to be substituted with a group chosen from a phenyl, vinyl, aminopropyl or mercaptopropyl group,
and said compound being chosen from the group constituted of at least one active substance and at least one microorganism and mixtures thereof the process comprising:
a) the step of sol-gel synthesis of the hybrid organic-inorganic material having a 2:1 lamellar structure in the presence of the compound and of the porous material saturated with the compound;
b) the recovery of the composite. It also concerns a composite obtainable by means of this process, a composition comprising it and its use in particular for the fertilization of plants.

The present invention concerns a process for preparing a composite of porous material/compound/hybrid organic-inorganic material having a 2:1 lamellar structure, said hybrid material having the following general formula I:
Na.sub.x[(Mg.sub.3)(Al.sub.x(RSi).sub.4−x)O.sub.8+x(OH).sub.2]  (I)
wherein
x is a number such that 0≤x<1.2 and
R represents a C.sub.1-C.sub.30 alkyl group, an aryl group, a (C.sub.1-C.sub.30 alkyl)aryl group or an O—(C.sub.1-C.sub.30 alkyl) group, it being possible for the alkyl group to be substituted with a group chosen from a phenyl, vinyl, aminopropyl or mercaptopropyl group,
and said compound being chosen from the group constituted of at least one active substance and at least one microorganism and mixtures thereof the process comprising:
a) the step of sol-gel synthesis of the hybrid organic-inorganic material having a 2:1 lamellar structure in the presence of the compound and of the porous material saturated with the compound;
b) the recovery of the composite. It also concerns a composite obtainable by means of this process, a composition comprising it and its use in particular for the fertilization of plants.

There is herein provided a mosquito attractant formulation comprising: (a) an aldehyde component; (b) a first monoterpene component; and (c) a second monoterpene component, wherein components (a) to (c) are defined in the description provided herein, 5 and products, uses and methods relating to the same. There is also herein provided the use of the compound HMBPP as a phagostimulant, and products and methods relating to the same.

There is herein provided a mosquito attractant formulation comprising: (a) an aldehyde component; (b) a first monoterpene component; and (c) a second monoterpene component, wherein components (a) to (c) are defined in the description provided herein, 5 and products, uses and methods relating to the same. There is also herein provided the use of the compound HMBPP as a phagostimulant, and products and methods relating to the same.

This invention refers to a bacterial inoculating formulation based on a microorganism consortium of genus Calothrix sp., to increase yield and quality of vegetable crops, the method for manufacturing the formulation and uses thereof, particularly its use in the industry of bacterial inoculants for field and greenhouse application, and for any other place requiring an enhancement in yield and quality of vegetable crops, without using nitrogen chemical fertilizers. The bacterial inoculating formulation based on a microorganism consortium of genus Calothrix sp., to increase yield and quality of vegetable crops comprises: a) a microorganism consortium of genus Calothrix sp., at a concentration ranging from 0.05% to 10% by weight; b) a substrate or immobilizing vehicle in order to immobilize the microorganisms at a concentration ranging from 2% to 80% by weight; c) a soil pH buffer at a concentration ranging from 0% to 3% by weight, and d) moisture at a concentration ranging from 7% to 97.95% by weight.

This invention refers to a bacterial inoculating formulation based on a microorganism consortium of genus Calothrix sp., to increase yield and quality of vegetable crops, the method for manufacturing the formulation and uses thereof, particularly its use in the industry of bacterial inoculants for field and greenhouse application, and for any other place requiring an enhancement in yield and quality of vegetable crops, without using nitrogen chemical fertilizers. The bacterial inoculating formulation based on a microorganism consortium of genus Calothrix sp., to increase yield and quality of vegetable crops comprises: a) a microorganism consortium of genus Calothrix sp., at a concentration ranging from 0.05% to 10% by weight; b) a substrate or immobilizing vehicle in order to immobilize the microorganisms at a concentration ranging from 2% to 80% by weight; c) a soil pH buffer at a concentration ranging from 0% to 3% by weight, and d) moisture at a concentration ranging from 7% to 97.95% by weight.

In one aspect, the invention relates to chemical modulators of insect olfactory receptors. In particular, compounds and compositions are provided that can inhibit sensory (e.g., host targeting) functions in airborne insects such as mosquitos. Methods of employing such agents, and articles incorporating the same, are also provided. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.

In one aspect, the invention relates to chemical modulators of insect olfactory receptors. In particular, compounds and compositions are provided that can inhibit sensory (e.g., host targeting) functions in airborne insects such as mosquitos. Methods of employing such agents, and articles incorporating the same, are also provided. This abstract is intended as a scanning tool for purposes of searching in the particular art and is not intended to be limiting of the present invention.

A composition for inhibiting the attachment of microbes to an animate or inanimate surface is disclosed. The composition includes a carrier and an effective amount of an anti-adherent agent. The anti-adherent agents include botanical agents such Soybean extract, Horse chestnut extract, Gypenoside, Resveratrol, Astragalus extract, Rhubarb rootextract, Allium cepaextract, Cassia seedextract, Ginkgo bilobaextract, and Silymarin, and combinations thereof. The efficacy of the botanical agents is microbe and surface dependent. Various delivery vehicles, including a wipe, may be used to deliver the composition to the surface.