Search results for "Salt formation"

showing 3 items of 3 documents

Studien zum Vorgang der Wasserstoffübertragung, 38. Selektive katalytische Hydrierungen mit Palladium-Trägerkatalysatoren auf der Basis von ‘Aminoaer…

1976

Es wird die Darstellung neuer Palladium-Trager-Katalysatoren auf modifizierten Siliciumdioxidtragern insbesondere ‘Aminoaerosil’ beschrieben. Die Oberflachenaminogruppen der Palladium-Trager-Katalysatoren bewirken durch Salzbildung eine bevorzugte katalytische Hydrierung von Olefincarbonsauren in Gegenwart ihrer Athylester. Durch Variation der Struktur der Substrate, des Palladiumgehalts und der Reduktionsweise des Katalysators, der chemischen Veranderung der Oberflachengruppe des Tragers sowie des Losungsmittels, wird versucht, Einblick in die Vorgange an der Kontaktoberflache zu gewinnen. Studies on the Occurrence of Hydrogen Transfer, 38. — Selective Catalytic Hydrogenations with Palladi…

SolventReaction conditionschemistryOrganic ChemistryPolymer chemistryHydrogen transferSubstrate (chemistry)chemistry.chemical_elementPhysical and Theoretical ChemistryEthyl esterSalt formationPalladiumCatalysisJustus Liebigs Annalen der Chemie
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Engineering of Nanofibrous Amorphous and Crystalline Solid Dispersions for Oral Drug Delivery

2018

Poor aqueous solubility (<0.1 mg/mL) affects a significant number of drugs currently on the market or under development. Several formulation strategies including salt formation, particle size reduction, and solid dispersion approaches have been employed with varied success. In this review, we focus primarily on the emerging trends in the generation of amorphous and micro/nano-crystalline solid dispersions using electrospinning to improve the dissolution rate and in turn the bioavailability of poorly water-soluble drugs. Electrospinning is a simple but versatile process that utilizes electrostatic forces to generate polymeric fibers and has been used for over 100 years to generate synthet…

Materials scienceamorphousoral drug deliveryPharmaceutical Sciencelcsh:RS1-44102 engineering and technologyReview030226 pharmacology & pharmacylcsh:Pharmacy and materia medica03 medical and health sciences0302 clinical medicineamorphoucrystallineaqueous solubility enhancementDissolutionelectrospinningsolid dispersion021001 nanoscience & nanotechnologyElectrospinningAmorphous solidSynthetic fiberChemical engineeringPARTICLE SIZE REDUCTION0210 nano-technologyDispersion (chemistry)Oral retinoidSalt formation
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Ultrathin Organic Multilayer Films Via Salt Formation: Easy Access To Tailor-made Coatings In The Thickness Range Of 1 Nm To 500 Nm

2005

The state of the art technologies for the preparation of well defined ultrathin films in the submicron range are the Langmuir-Blodgett (LB) technique and self-assembly (SA) methods based on chemisorption [l]. Whereas the LBtechnique requires sophisticated apparatus and is generally limited to small film areas [2], the SA-methods are relatively simple [3,4], hut have not been employed for the preparation of films thicker than 8 layers ( 20nm) [4], probably due to the loss of chemical functionality. Our approach avoids these limits and extends the SA-concept by emploing salt formation as the driving force for the construction of multilayer supramolecular assemblies.

Range (particle radiation)Materials scienceOptical microscopeChemisorptionlawSupramolecular chemistryNanotechnologySelf-assemblyWell-definedSurface cleaningSalt formationlaw.invention[1990] Proceedings of the Twelfth Annual International Conference of the IEEE Engineering in Medicine and Biology Society
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