An electronic switching device, in particular tunnel junctions, containing an organic molecular layer for use in memory, sensors, field-effect transistors or Josephson junctions. More particularly, related to the field of random access non-volatile memristive memories (RRAM). Another aspect is a compound of formula I

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for use in a molecular layer. Also, the use of the molecular layer and processes for the production and operation of an electronic switching element and components based thereon.

A novel compound has pharmacological activities comparable to those of Nahlsgen and is storable excellently stably. The compound can be produced by a method according to the present invention for producing an optically active 2-amino-phosphonoalkanoic acid salt. In the method, a starting material DL-2-amino-phosphonoalkanoic acid represented by Formula (1) or a hydrate thereof is reacted with an optically active basic compound other than an optically active lysine, to give a diastereomeric salt mixture including a first salt (including a hydrate salt) between a D-2-amino-phosphonoalkanoic acid represented by Formula (1-1) and the optically active basic compound, and a second salt (including a hydrate salt) between an L-2-amino-phosphonoalkanoic acid represented by Formula (1-2) and the optically active basic compound. The diastereomeric salt mixture is fractionally crystallized to isolate one of the first and second diastereomeric salts. ##STR00001##

The present invention relates to compounds of formula (Ia) and the use thereof as inhibitors of P. aeruginosa virulence factor LasB. Formula (Ia). These compounds are useful in the treatment of bacterial infections, especially caused by P. aeruginosa.

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Here we show that P. ananatis produces at least three phosphonates, two of which were purified and structurally characterized. The first, designated pantaphos, was shown to be 2-(hydroxy(phosphono)methyl)maleate; the second, a probable biosynthetic precursor, was shown to be 2-(phosphonomethyl)maleate. Purified pantaphos is both necessary and sufficient for the hallmark lesions of onion center rot. Moreover, when tested against mustard seedlings, the phytotoxic activity of pantaphos was comparable to the widely used herbicides glyphosate and phosphinothricin. Pantaphos was also active against a variety of human cell lines.

A method for preparing the cyclic phosphonate compound of Formula I

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is described. The method significantly improves the stereoselectivity of the compound with the required configuration.

A chemical compound shown in formula (I) below and an isomer thereof or a pharmaceutically acceptable salt thereof. The compound improves THR-β agonistic activity while also improving selectivity for THR-α, thereby improving pharmaceutical quality.

This disclosure is directed, at least in part, to GPR40 agonists useful for the treatment of conditions or disorders involving the gut-brain axis. In some embodiments, the GPR40 agonists are gut-restricted compounds. In some embodiments, the GPR40 agonists are full agonists or partial agonists. In some embodiments, the condition or disorder is a metabolic disorder, such as diabetes, obesity, nonalcoholic steatohepatitis (NASH), or a nutritional disorder such as short bowel syndrome.

Sulfonated 2(7)-aminoacridone and 1-aminopyrene dyes and their use as fluorescent tags, in particular for carbohydrate analysis The invention relates to fluorescent dyes with multiple negatively charged groups in their ionized form which are aminoacridone sulfonamides or 1-aminopyrenes having of one of the following general formulae A-D: Formula (A), Formula (B), Formula (C), Formula (D), wherein the ionizable groups X are typically selected from the following: SH, COOH, SO.sub.3H, OSO.sub.3H, OP(O)(OH).sub.2, OP(O)(OH)R.sup.a, P(O)(OH).sub.2, P(O)(OH)R.sup.a, where R.sup.a═C.sub.1-C.sub.4alkyl or substituted C.sub.1-C.sub.4alkyl. The invention further relates to the use of these dyes as fluorescent tags, in particular for reducing sugars and glycans.

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The present disclosure provides for the production of non-halogenated phosphorus containing, thermally stable flame retardant materials directly in the form of a powder or small particles. The process generally includes heating one or more phosphonic acid salts in a high boiling, water miscible, acid stable solvent to dehydration reaction temperatures of 200° C. or higher.

A light-absorbing composition includes: a light absorber formed by a phosphonic acid represented by the following formula (a) and copper ion, the light absorber being dispersed in the light-absorbing composition; a phosphoric acid ester allowing the light absorber to be dispersed; and a curable resin. When the light-absorbing composition is applied and cured on one principal surface of a transparent dielectric substrate to form a laminate consisting of a light-absorbing layer being a cured product of the light-absorbing composition and the transparent dielectric substrate, the laminate satisfies predetermined requirements. ##STR00001##