This disclosure relates to the field of molecules having pesticidal utility against pests in Phyla Arthropoda, Mollusca, and Nematoda, processes to produce such molecules, intermediates used in such processes, pesticidal compositions containing such molecules, and processes of using such pesticidal compositions against such pests. These pesticidal compositions may be used, for example, as acaricides, insecticides, miticides, molluscicides, and nematicides. This document discloses molecules having the following formula (“Formula One”). ##STR00001##

A sulfur-carbon composite, a preparation method thereof, a positive electrode, and a lithium secondary battery including the same are disclosed. The sulfur-carbon composite has a fluorine-based surfactant and sulfur sequentially forming a double coating layer on the surface of a porous carbon material and/or on an inner surface of pores of the porous carbon material, and thus when the sulfur-carbon composite is applied to a positive electrode of a lithium secondary battery, for example, a lithium-sulfur secondary battery, the fluorine-based surfactant can be slowly dissolved to prevent deterioration of lithium contained in the negative electrode, and the surface energy of the electrolyte solution can be lowered to improve the wettability of the positive electrode, thereby improving the lifetime of the battery.

A sulfur-carbon composite, a preparation method thereof, a positive electrode, and a lithium secondary battery including the same are disclosed. The sulfur-carbon composite has a fluorine-based surfactant and sulfur sequentially forming a double coating layer on the surface of a porous carbon material and/or on an inner surface of pores of the porous carbon material, and thus when the sulfur-carbon composite is applied to a positive electrode of a lithium secondary battery, for example, a lithium-sulfur secondary battery, the fluorine-based surfactant can be slowly dissolved to prevent deterioration of lithium contained in the negative electrode, and the surface energy of the electrolyte solution can be lowered to improve the wettability of the positive electrode, thereby improving the lifetime of the battery.

A salt, in particular a lithium salt, that is usable in alkali metal cells and/or batteries, and/or electrolytes and/or additives for same is described. To achieve good ion conductivity as well as temperature and high voltage stability and to prevent corrosion of aluminum, for example a current collector, the salt includes at least one alkali metal ion and/or at least one ammonium compound and at least one anion that contains at least one unfluorinated (N,N-dialkylamide)sulfonyl group and/or at least one unfluorinated (N,N-dialkylamide)sulfoximide group, and at least one (perfluoroalkyl)sulfonyl group. An electrolyte, an additive, a cell, a battery, and a preparation method, are also described.

A salt, in particular a lithium salt, that is usable in alkali metal cells and/or batteries, and/or electrolytes and/or additives for same is described. To achieve good ion conductivity as well as temperature and high voltage stability and to prevent corrosion of aluminum, for example a current collector, the salt includes at least one alkali metal ion and/or at least one ammonium compound and at least one anion that contains at least one unfluorinated (N,N-dialkylamide)sulfonyl group and/or at least one unfluorinated (N,N-dialkylamide)sulfoximide group, and at least one (perfluoroalkyl)sulfonyl group. An electrolyte, an additive, a cell, a battery, and a preparation method, are also described.

Described herein is the curing of a fluorinated elastomeric gum with peroxide and a co-agent of Formula I or salt thereof, wherein Formula I is (CH.sub.2CHCH.sub.2).sub.2-L.sup.1-Rf-L.sup.2-(CH.sub.2CHCH.sub.2).sub.n(H).sub.2-n wherein L.sup.1 is NSO.sub.2 or NCO; L.sup.2 is SO.sub.2N or CON; n is 1 or 2; and Rf is a divalent perfluorinated carbon group, optionally comprising at least one ether linkage; and cured articles therefrom.

Described herein is the curing of a fluorinated elastomeric gum with peroxide and a co-agent of Formula I or salt thereof, wherein Formula I is (CH.sub.2CHCH.sub.2).sub.2-L.sup.1-Rf-L.sup.2-(CH.sub.2CHCH.sub.2).sub.n(H).sub.2-n wherein L.sup.1 is NSO.sub.2 or NCO; L.sup.2 is SO.sub.2N or CON; n is 1 or 2; and Rf is a divalent perfluorinated carbon group, optionally comprising at least one ether linkage; and cured articles therefrom.

Provided herein are naphthoquinones compounds such as those with a hydrogen bond donating group of the formula (I): wherein: R.sub.1, R.sub.2, R.sub.3, R.sub.4, R.sub.5, and n are as defined herein. Also provided herein are pharmaceutical composition of the present compounds and methods of treatment using the compounds including their use in the treatment of cancer. ##STR00001##

Provided herein are naphthoquinones compounds such as those with a hydrogen bond donating group of the formula (I): wherein: R.sub.1, R.sub.2, R.sub.3, R.sub.4, R.sub.5, and n are as defined herein. Also provided herein are pharmaceutical composition of the present compounds and methods of treatment using the compounds including their use in the treatment of cancer. ##STR00001##

The invention relates to a process for preparing unipolar cation-conducting ionomers from fluoro ionic monomers, to said unipolar cation-conducting ionomers, to the uses thereof, to an electrolytic composition comprising at least one of said unipolar cation-conducting ionomers and to an electrochemical device comprising at least one of said unipolar cation-conducting ionomers, especially as electrolyte.