The present invention relates to a metal powder catalyst and its use in the selective catalytic hydrogenation of organic starting materials comprising a carbon-carbon triple bond. The powder catalyst comprises a metal alloy carrier, wherein the metal alloy comprises (i) 55 weight-% (wt-%)-80 wt-%, based on the total weight of the metal alloy, of Co, and (ii) 20 wt-%-40 wt-%, based on the total weight of the metal alloy, of Cr, and (iii) 2 wt-%-10 wt-%, based on the total weight of the metal alloy, of Mo, and wherein the said metal alloy is coated by a metal oxide layer and impregnated with Pd, and is characterized in that the metal oxide layer comprises CeO.sub.2.

The present invention relates to a metal powder catalyst and its use in the selective catalytic hydrogenation of organic starting materials comprising a carbon-carbon triple bond. The powder catalyst comprises a metal alloy carrier, wherein the metal alloy comprises (i) 55 weight-% (wt-%)-80 wt-%, based on the total weight of the metal alloy, of Co, and (ii) 20 wt-%-40 wt-%, based on the total weight of the metal alloy, of Cr, and (iii) 2 wt-%-10 wt-%, based on the total weight of the metal alloy, of Mo, and wherein the said metal alloy is coated by a metal oxide layer and impregnated with Pd, and is characterized in that the metal oxide layer comprises CeO.sub.2.

Systems and methods are disclosed for generation of hyperpolarized target compounds. Generation of a hyperpolarized target compound can include application of a sequence of microwave pulses to a solution containing the target compound or a precursor of the target compound; or modulation of a magnetic field applied to the solution. When the precursor is hyperpolarized, the precursor can be cleaved to generate the hyperpolarized target compound. The hyperpolarized target compound can then be induced to precipitate out of the solution. The precipitate can be redissolved in a specified volume of solvent to form a solution having a desired concentration of the hyperpolarized target compound.

Systems and methods are disclosed for generation of hyperpolarized target compounds. Generation of a hyperpolarized target compound can include application of a sequence of microwave pulses to a solution containing the target compound or a precursor of the target compound; or modulation of a magnetic field applied to the solution. When the precursor is hyperpolarized, the precursor can be cleaved to generate the hyperpolarized target compound. The hyperpolarized target compound can then be induced to precipitate out of the solution. The precipitate can be redissolved in a specified volume of solvent to form a solution having a desired concentration of the hyperpolarized target compound.

Systems and methods are disclosed for generation of hyperpolarized target compounds. Generation of a hyperpolarized target compound can include application of a sequence of microwave pulses to a solution containing the target compound or a precursor of the target compound; or modulation of a magnetic field applied to the solution. When the precursor is hyperpolarized, the precursor can be cleaved to generate the hyperpolarized target compound. The hyperpolarized target compound can then be induced to precipitate out of the solution. The precipitate can be redissolved in a specified volume of solvent to form a solution having a desired concentration of the hyperpolarized target compound.

A process for preparing b-b dimers having anti-UV and antioxidant properties, from p-hydroxycinnamic esters and amides disubstituted in the ortho position with respect to the phenol function and from ketones disubstituted in the ortho position with respect to the phenol, in particular, from sinapic acid esters and amides and ketone analogs. The dimers of formulae (I), (II), (III) and (IV) as obtained by means of the process according to the present disclosure can be used for the production of polymers/plastics (in plastics technology), or for the protection of plants against the cold and as cosmetic or food-processing ingredients, for example. The process may be used to form biobased anti-UV molecules.

A process for preparing b-b dimers having anti-UV and antioxidant properties, from p-hydroxycinnamic esters and amides disubstituted in the ortho position with respect to the phenol function and from ketones disubstituted in the ortho position with respect to the phenol, in particular, from sinapic acid esters and amides and ketone analogs. The dimers of formulae (I), (II), (III) and (IV) as obtained by means of the process according to the present disclosure can be used for the production of polymers/plastics (in plastics technology), or for the protection of plants against the cold and as cosmetic or food-processing ingredients, for example. The process may be used to form biobased anti-UV molecules.

The present invention relates to the field of perfumery. More particularly, it concerns valuable new chemical intermediates for producing perfuming ingredients. Moreover, the present invention comprises also a process for producing compound of formula (I).

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The present invention relates to the field of perfumery. More particularly, it concerns valuable new chemical intermediates for producing perfuming ingredients. Moreover, the present invention comprises also a process for producing compound of formula (I).

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The present invention relates to the field of perfumery. More particularly, it concerns valuable new chemical intermediates for producing perfuming ingredients. Moreover, the present invention comprises also a process for producing compound of formula (I).

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