This invention relates to polymer-based partially-open, hollow reservoirs in the nano-size to micro-size range that encapsulate an additive, which can be released from the reservoirs using specific event stimuli such as reduction-oxidation and voltage change, or at will, using the same stimuli. This invention also relates to method preparing such reservoirs, and for releasing the additive. This invention further relates to matrix that comprises such reservoirs and the method of preparing such matrix. This invention also relates to applications, for example in corrosion inhibition, lubrication, and adhesion, that benefit from using such a controlled release of an additive.

This invention relates to polymer-based partially-open, hollow reservoirs in the nano-size to micro-size range that encapsulate an additive, which can be released from the reservoirs using specific event stimuli such as reduction-oxidation and voltage change, or at will, using the same stimuli. This invention also relates to method preparing such reservoirs, and for releasing the additive. This invention further relates to matrix that comprises such reservoirs and the method of preparing such matrix. This invention also relates to applications, for example in corrosion inhibition, lubrication, and adhesion, that benefit from using such a controlled release of an additive.

This invention relates to polymer-based partially-open, hollow reservoirs in the nano-size to micro-size range that encapsulate an additive, which can be released from the reservoirs using specific event stimuli such as reduction-oxidation and voltage change, or at will, using the same stimuli. This invention also relates to method preparing such reservoirs, and for releasing the additive. This invention further relates to matrix that comprises such reservoirs and the method of preparing such matrix. This invention also relates to applications, for example in corrosion inhibition, lubrication, and adhesion, that benefit from using such a controlled release of an additive.

Provided are liquid compositions comprising inactive biopesticide precursors comprising a glucosinolate concentrate, a plant material comprising a myrosinase enzyme complex, and a water soluble polyol. Further provided are methods of making and using such compositions.

Provided are liquid compositions comprising inactive biopesticide precursors comprising a glucosinolate concentrate, a plant material comprising a myrosinase enzyme complex, and a water soluble polyol. Further provided are methods of making and using such compositions.

Provided are liquid compositions comprising inactive biopesticide precursors comprising a glucosinolate concentrate, a plant material comprising a myrosinase enzyme complex, and a water soluble polyol. Further provided are methods of making and using such compositions.

The present invention relates to mixtures comprising, as active components, 1) an insecticidal compound I selected from fipronil and ethiprole; and 2) a fungicidal compound IIA selected from azoles, strobilurins, carboxamides, heterocylic compounds, carbamates, and other active compounds, and optionally 3) one or two fungicidal compounds IIB selected from List B which is defined as List A plus triticonazole, orysastrobin, in synergistically effective amounts, all as further defined in the description.

The present invention relates to mixtures comprising, as active components, 1) an insecticidal compound I selected from fipronil and ethiprole; and 2) a fungicidal compound IIA selected from azoles, strobilurins, carboxamides, heterocylic compounds, carbamates, and other active compounds, and optionally 3) one or two fungicidal compounds IIB selected from List B which is defined as List A plus triticonazole, orysastrobin, in synergistically effective amounts, all as further defined in the description.

The present invention relates to pesticidal mixtures comprising as active compounds 1) at least one isoaxazoline compound I of the formula (I)

##STR00001## wherein R.sup.1, R.sup.2, R.sup.3, R.sup.4, R.sup.5 and A are defined in the description; and 2) at least one active compound II selected from a group A comprising acteylcholine esterase inhibitors, GABA-gated chloride channel antagonists, sodium channel modulators, nicotinic acteylcholine receptor agonists/antagonists, chloride channel activators, juvenile hormone mimics, compounds affecting the oxidative phosphorylation, inhibitors of the chitin biosynthesis, moulting disruptors, inhibitors of the MET, voltage-dependent sodium channel blockers, inhibitors of the lipid synthesis and other compounds as defined in the description, in synergistically effective amounts.

The invention relates further to methods and use of these mixtures for combating insects, arachnids or nematodes in and on plants, and for protecting such plants being infested with pests, especially also for protecting plant propagation material as like seeds.

The present invention relates to pesticidal mixtures comprising as active compounds 1) at least one isoaxazoline compound I of the formula (I)

##STR00001## wherein R.sup.1, R.sup.2, R.sup.3, R.sup.4, R.sup.5 and A are defined in the description; and 2) at least one active compound II selected from a group A comprising acteylcholine esterase inhibitors, GABA-gated chloride channel antagonists, sodium channel modulators, nicotinic acteylcholine receptor agonists/antagonists, chloride channel activators, juvenile hormone mimics, compounds affecting the oxidative phosphorylation, inhibitors of the chitin biosynthesis, moulting disruptors, inhibitors of the MET, voltage-dependent sodium channel blockers, inhibitors of the lipid synthesis and other compounds as defined in the description, in synergistically effective amounts.

The invention relates further to methods and use of these mixtures for combating insects, arachnids or nematodes in and on plants, and for protecting such plants being infested with pests, especially also for protecting plant propagation material as like seeds.