The invention relates to a hybrid material, in particular provided as an additive relating to materials, substances and/or coating materials for producing an antimicrobial, antiviral and/or fungicidal effect, and which comprises particles, each of which comprising at least one carrier material being at least partially coated with at least two different metals, wherein at least one first metal and one second metal are, at least with their respective surfaces, in electrically conductive contact to each other. According to the invention the first metal comprises at least one semiconductive compound of at least one transition metal element, which exhibits multiple oxidation states and allows a change of the oxidation states by means of catalytically active centers, and the second metal comprises at least one electrically conductive silver semiconductor, wherein both metals establish half cells which are short-circuited in the presence of water and oxygen and thus develop an antimicrobial, antiviral and/or fungicidal effect, wherein the carrier material comprises at least one material being adapted to the substance and/or the coating material and their use. The hybrid material according to the invention can be advantageously used as antimicrobial additive for various materials, substances and/or coating materials, preferably lacquers, paints, plastering, polymers and/or cellulose.

A nanobionic approach for augmenting plant photoprotection and photosynthetic light energy conversion and carbon assimilation under abiotic (e.g., light) stress was used. Cerium oxide nanoparticles (nanoceria) improve Arabidopsis maximum quantum yield of photosystem II (10%) and carbon assimilation (19%) by protecting leaf mesophyll chloroplasts from damaging reactive oxygen species (ROS). Nanoceria augments scavenging of superoxide and hydroxyl radicals. For the latter, there are not known scavenging enzymatic pathways.

A nanobionic approach for augmenting plant photoprotection and photosynthetic light energy conversion and carbon assimilation under abiotic (e.g., light) stress was used. Cerium oxide nanoparticles (nanoceria) improve Arabidopsis maximum quantum yield of photosystem II (10%) and carbon assimilation (19%) by protecting leaf mesophyll chloroplasts from damaging reactive oxygen species (ROS). Nanoceria augments scavenging of superoxide and hydroxyl radicals. For the latter, there are not known scavenging enzymatic pathways.

A nanobionic approach for augmenting plant photoprotection and photosynthetic light energy conversion and carbon assimilation under abiotic (e.g., light) stress was used. Cerium oxide nanoparticles (nanoceria) improve Arabidopsis maximum quantum yield of photosystem II (10%) and carbon assimilation (19%) by protecting leaf mesophyll chloroplasts from damaging reactive oxygen species (ROS). Nanoceria augments scavenging of superoxide and hydroxyl radicals. For the latter, there are not known scavenging enzymatic pathways.

Compositions suitable for use as biodegradable coatings, comprising mixtures of naturally sourced waxes and naturally sourced crosslinkable agents. Compositions may be used to impart water resistance to a substrate, to control the release time of soil nutrients, to reduce environmental damage, and to protect seed or crop damage from high local concentrations of salts. Compositions are preferably prepared as aliphatic alcohol and thereafter may be disposed about an agronomically important substrate core or a fibrous substrate, at temperatures below about 90° C. to impart water resistance or extend the storage time.

The present disclosure relates to zeolite based agricultural compositions and their use as delayed release compositions. The delayed release compositions comprise an agricultural composition absorbed into or on the zeolite and the impregnated zeolites can then be coated with a polymer material to give the delayed release composition. Release of the agricultural composition can be tuned to coincide with the demand needs of a growing plant.

The present disclosure relates to zeolite based agricultural compositions and their use as delayed release compositions. The delayed release compositions comprise an agricultural composition absorbed into or on the zeolite and the impregnated zeolites can then be coated with a polymer material to give the delayed release composition. Release of the agricultural composition can be tuned to coincide with the demand needs of a growing plant.

The present disclosure relates to zeolite based agricultural compositions and their use as delayed release compositions. The delayed release compositions comprise an agricultural composition absorbed into or on the zeolite and the impregnated zeolites can then be coated with a polymer material to give the delayed release composition. Release of the agricultural composition can be tuned to coincide with the demand needs of a growing plant.

The present disclosure relates to enhanced nitrification inhibitor dry fertilizer compositions, methods for making the same, and their use in agricultural applications.

The present disclosure relates to enhanced nitrification inhibitor dry fertilizer compositions, methods for making the same, and their use in agricultural applications.