Abstract: Ready-to-use foamable pesticide compositions that contain a pesticide dispersed in a composition containing water, a co-solvent, surfactant and propellant. Methods for treating pests such as arthropods by contacting pests with such compositions are also provided.

Abstract: A process for the production of an optically enriched tertiary alcohol of the formula (2a) or (2b), by reacting an epoxide of the formula (1) with a nucleophilic agent Nu in the presence of halohydrin dehalogenase.

Abstract: Process for treating aqueous slurries of finely divided fillers, an aqueous dispersion of at least one latex and an aqueous slurry of at least one starch being metered separately from one another into an aqueous slurry of at least one finely divided filler.

Abstract: This invention relates to hair conditioning formulations comprising at least one aminofunctional polyorganosiloxane. Furthermore, the invention relates to the use of these formulations for the treatment of keratin-containing fibers, preferably human hair.

Abstract: A process for the production of a composite membrane, one or more microporous separation layers comprising a zeolite of the MFI type being produced by hydrothermal synthesis on a porous substrate, wherein one or more additives from the group consisting of linear (C1-C4)-alcohols, ammonia, primary, secondary and tertiary amines having in each case (C1-C4)-alkyl radicals, (C1-C4)-aminoalcohols and (C3-C4)-ketones are added to the synthesis solution for the hydrothermal synthesis.

Abstract: The use of solid materials based on synthetic polymers and/or biopolymers (A) in natural gas and mineral oil extraction technology. The solid materials are produced by solubilizing at least one synthetic polymer and/or biopolymer (A), or at least one synthetic polymer and/or biopolymer (A) and at least one additive (B), in at least one substantially anhydrous chaotropic liquid (C). The solution or dispersion (AC) or (ABC) is contacted with a liquid (D1) which is miscible with the chaotropic liquid (C), but in which at least the synthetic polymer and/or the biopolymer (A) are substantially insoluble, resulting in a phase (E). The chaotropic liquid (C) is removed from phase (E) to result in a gel (G), which is impregnated with a liquid (D2). The two liquids (D1) and (D2) are removed from the gel (G) by evaporating, producing a solid material based on synthetic polymer and/or biopolymer (A).

Abstract: The present invention relates to a process for separating at least one propylene glycol from a mixture (M) comprising water and said propylene glycol, said process comprising (I) evaporating the mixture in at least two evaporation and/or distillation stages at decreasing operating pressures of the evaporators and/or distillation columns obtaining mixture (M?) and mixture (M?); (II) separating the mixture (M?) obtained in (I) in at least one further distillation step, obtaining a mixture (M-I) comprising at least 70 wt.-% of water and a mixture (M-II) comprising less than 30 wt.-% of water.

Abstract: Process for the continuous fractional distillation of mixtures including morpholine (MO), monoaminodiglycol (ADG), ammonia and water obtained by reaction of diethylene glycol (DEG) with ammonia, which includes separating off ammonia at the top of a first distillation column K10, feeding the bottoms from K10 to a second distillation column K20 in which water and organic products are separated off at the top at a temperature at the top in the range from 45 to 198° C. and a pressure in the range from 0.1 to 15 bar, feeding the bottoms from K20 to a third distillation column K30 in which MO and organic products having a boiling point of <140° C. (1.013 bar) are separated off at the top or at a side offtake and ADG and organic products having a boiling point of >190° C. (1.013 bar) are separated off at the bottom, feeding the MO including stream which is separated off at the top or at a side offtake of the column K30 to a fourth column K40 in which organic products having a boiling point of ?128° C. (1.

Abstract: A process for the production of a light lignocellulose-containing substance having an average density in the range from 200 to 600 kg/m3, in which, in each case based on the lignocellulose-containing substance: A) from 30 to 95% by weight of lignocellulose particles; B) from 1 to 25% by weight of expanded plastics particles having a bulk density in the range from 10 to 100 kg/m3; C) from 3 to 50% by weight of a binder selected from the group consisting of aminoplast resin, phenol-formaldehyde resin and organic isocyanate having at least two isocyanate groups and, if appropriate D) additives are mixed and then pressed at elevated temperature and under elevated pressure, wherein the expanded plastics particles are obtained from expandable plastics particles by expansion and the expanded plastics particles thus obtained are further used without further intermediate steps for the production of the light lignocellulose-containing substance.

Abstract: A process for producing leather comprises treating part-processed hides, crust leathers or pelts with at least one aqueous float comprising (A) at least one amphiphilic organic copolymer, (B) at least one silicone compound having at least one carboxylic acid group or at least one carboxylic anhydride group per molecule, (C) at least one surface-active compound selected from emulsifiers having at least one phosphorus atom per molecule, (D) at least one surface-active compound selected from N-acylated amino acids, (E) at least one surface-active compound comprising at least one C10-C30-alkyl radical, branched or unbranched, or at least one polyisobutene moiety, and at least one ionic or aqueous-ionizable group, other than amphiphilic copolymer (A) and surface-active compound (C), and which is free of waxes and oils.

Abstract: The present invention relates to a method for enhancing harvest security of crops needing vernalization comprising the steps: a) advanced seeding of a crop variety before seeding of such crop variety is generally carried out in the respective area, and b) applying a mixture comprising at least two active compounds (A) selected from the group consisting of mepiquat chloride, chlormequat chloride, N,N-dimethylmorpholinium chloride, metconazole, tebuconazole, paclobutrazol, trinexapac and prohexadion or an agriculturally useful salt thereof to the crop variety seeded according to step a). In addition, the invention relates to the use of a mixture comprising at least two active compounds (A) selected from mepiquat chloride, chlormequat chloride, N,N-dimethylmorpholinium chloride, metconazole, tebuconazole, paclobutrazol, trinexapac and prohexadion or an agriculturally useful salt thereof for enhancing harvest security of crops needing vernalization.

Abstract: Process for producing multilayer composite structures, which comprises carrying out the following operations in succession: (a) use of power-modulated laser engraving to provide, to a female or male mold, a surface structure in the form of an image or of a pattern, where this has at least one element (D) which is not a geometric element, not a numeral, and not a letter, and where, within the surface structure, there are differences in screen angles, in depression depth, or in taper values, (b) optional molding of a female mold from the male mold, (c) spray-application of a plastics formulation onto the female mold, where the temperature of the female mold is in the range from 50 to 200° C., (d) solidification of the plastics formulation to give a film, (e) bonding the film to a substrate (A), (f) and removal of the mold, where the operations (e) and (f) can be carried out in any desired sequence.

Abstract: A process for preparing isobutene homo- or copolymer derivatives by (i) polymerizing isobutene or an isobutene-comprising monomer mixture in the presence of an iron halide-donor complex, an aluminum trihalide-donor complex, or an alkylaluminum halide-donor complex, (ii) reacting a resulting high-reactivity isobutene polymer with a compound which introduces a low molecular weight polar group or a substructure thereof, and (iii) in the case of reaction with a substructure, further reacting to complete the formation of the low molecular weight polar group. The homo- or copolymer derivatives include a radical of a hydrophobic polyisobutene polymer having a number-average molecular weight of 110 to 250 000 and low molecular weight polar groups including amino functions, nitro groups, hydroxyl groups, mercaptan groups, carboxylic acid or carboxylic acid derivative functions, sulfonic acid or sulfonic acid derivative functions, aldehyde functions and/or silyl groups.

Abstract: The present invention relates to a process for polymerising (hetero)aromatic compounds under formation of aryl-aryl C—C couplings for preparing conjugated polymers with high molecular weight and high regioregularity, and to novel polymers obtainable by this process. The invention further relates to the use of the novel polymers as semiconductors or charge transport materials in optical, electrooptical or electronic devices including field effect transistors (FETs), thin film transistors (TFT), electroluminescent, photovoltaic and sensor devices.

Abstract: A foam composition comprising, A) a cellulose foam matrix, and B) particles of encapsulated organic phase change material which are distributed within the cellulose foam matrix. The invention also relates to a method for making the foam composition and also their use in thermal storage applications, such as air-conditioning units.

Abstract: The present invention relates to polyester polyols based on aromatic dicarboxylic acids and their use for producing rigid polyurethane foams.

Abstract: The present invention generally relates to particles for drug delivery and other applications. In one aspect, the present invention relates to a technique for reacting precursor compounds in the presence of a pharmaceutically-active agent to form product (e.g., in the form of particles) in which the agent is substantially contained within the product, and the product is soluble within typical gastric fluid of a mammal. In another aspect, the present invention is generally directed to particles comprising an inorganic pharmaceutically acceptable carrier, such as CaCO3, and an agent. In some cases, at least some of the agent contained within the particles is fluidically inaccessible from externally of the particle. For instance, the agent may be present in isolated domains within the particle. In another aspect, the present invention is generally directed to methods of creating particles.

Abstract: The present invention relates to a membrane electrode assembly comprising at least two electrochemically active electrodes separated by at least one polymer electrolyte membrane, the aforementioned polymer electrolyte membrane having fibrous reinforcing elements which at least partly penetrate the polymer electrolyte membrane, wherein at least some of the fibrous reinforcing elements have functional groups which have a covalent chemical bond between the fibers and the polymer of the polymer electrolyte membrane. The membrane electrode assembly is suitable for applications in fuel cells, especially in high-temperature polymer electrolyte fuel cells.

Abstract: The present invention relates generally to the field of molecular biology and concerns a method for enhancing yield-related traits in plants by modulating expression in a plant of a nucleic acid encoding a FSM1-like (Fruit Sant/Myb) polypeptide, or a PIF3-like (PHYTOCHROME INTERACTING FACTOR) polypeptide, or an Uroporphyrinogen III decarboxylase (UROD) polypeptide, or an AS-MTT (Abiotic Stress Membrane Tethered Transcription factor) polypeptide, or an EXO-1 polypeptide, or a YiAP2 (Yield increasing Apetala 2) polypeptide. The present invention also concerns plants having modulated expression of a nucleic acid encoding a FSM1-like polypeptide, which plants have enhanced yield-related traits relative to corresponding wild type plants or other control plants. The invention also provides constructs useful in the methods of the invention.

Abstract: A process for preparing diisocyanates by gas-phase phosgenation starting out from a feed stream comprising the corresponding diamines and a phosgene-comprising feed stream, in which the feed streams are separately converted into the gas phase and preheated to the reaction temperature of the gas-phase phosgenation, wherein the waste heat from a plant for preparing chlorine by heterogeneously catalyzed oxidation of hydrogen chloride by the Deacon process is utilized for this purpose, is proposed.