693.932 PEOPLE
| People | Locations | Statistics |
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| Naji, M. |
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| Motta, Antonella |
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| Aletan, Dirar |
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| Mohamed, Tarek |
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| Ertürk, Emre |
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| Taccardi, Nicola |
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| Kononenko, Denys |
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| Petrov, R. H. | Madrid |
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| Alshaaer, Mazen | Brussels |
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| Bih, L. |
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| Casati, R. |
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| Muller, Hermance |
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| Kočí, Jan | Prague |
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| Šuljagić, Marija |
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| Kalteremidou, Kalliopi-Artemi | Brussels |
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| Azam, Siraj |
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| Ospanova, Alyiya |
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| Blanpain, Bart |
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| Ali, M. A. |
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| Popa, V. |
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| Rančić, M. |
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| Ollier, Nadège |
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| Azevedo, Nuno Monteiro |
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| Landes, Michael |
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| Rignanese, Gian-Marco |
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Löbmann, Korbinian
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (49/49 displayed)
- 2024Exploring the effect of protein secondary structure on the solid state and physical stability of protein-based amorphous solid dispersionscitations
- 2024Investigating the influence of protein secondary structure on the dissolution behavior of β-lactoglobulin-based amorphous solid dispersionscitations
- 2023The effects of surfactants on the performance of polymer-based microwave-induced in situ amorphizationcitations
- 2022Development of a multiparticulate drug delivery system for in situ amorphisationcitations
- 2022Stabilizing Mechanisms of β-Lactoglobulin in Amorphous Solid Dispersions of Indomethacincitations
- 2021The Influence of Temperature and Viscosity of Polyethylene Glycol on the Rate of Microwave-Induced In Situ Amorphization of Celecoxibcitations
- 2021The Influence of Drug-Polymer Solubility on Laser-Induced In Situ Drug Amorphization Using Photothermal Plasmonic Nanoparticlescitations
- 2021The effect of the molecular weight of polyvinylpyrrolidone and the model drug on laser-induced in situ amorphizationcitations
- 2021Investigation into the role of the polymer in enhancing microwave-induced in situ amorphizationcitations
- 2021Investigation into the role of the polymer in enhancing microwave-induced in situ amorphizationcitations
- 2021Utilizing Laser Activation of Photothermal Plasmonic Nanoparticles to Induce On-Demand Drug Amorphization inside a Tabletcitations
- 2021Microwave-Induced in Situ Drug Amorphization Using a Mixture of Polyethylene Glycol and Polyvinylpyrrolidonecitations
- 2021The Use of Glycerol as an Enabling Excipient for Microwave-Induced In Situ Drug Amorphizationcitations
- 2021Studying the impact of the temperature and sorbed water during microwave-induced In Situ amorphizationcitations
- 2021Comparison of co-former performance in co-amorphous formulationscitations
- 2021Enabling formulations of aprepitantcitations
- 2020Hot Melt Coating of Amorphous Carvedilolcitations
- 2020The influence of drug and polymer particle size on the in situ amorphization using microwave irradiationcitations
- 2019Process Optimization and Upscaling of Spray-Dried Drug-Amino acid Co-Amorphous Formulationscitations
- 2019Influence of Glass Forming Ability on the Physical Stability of Supersaturated Amorphous Solid Dispersionscitations
- 2019In situ co-amorphisation in coated tablets – The combination of carvedilol with aspartic acid during immersion in an acidic mediumcitations
- 2019Co-former selection for co-amorphous drug-amino acid formulationscitations
- 2018Influence of PVP molecular weight on the microwave assisted in situ amorphization of indomethacincitations
- 2018The Role of Glass Transition Temperatures in Coamorphous Drug-Amino Acid Formulationscitations
- 2018Glass-Transition Temperature of the β-Relaxation as the Major Predictive Parameter for Recrystallization of Neat Amorphous Drugscitations
- 2018In vitro and in vivo comparison between crystalline and co-amorphous salts of naproxen-argininecitations
- 2018Glass-Transition Temperature of the β-Relaxation as the Major Predictive Parameter for Recrystallization of Neat Amorphous Drugs.
- 2018The Influence of Polymers on the Supersaturation Potential of Poor and Good Glass Formerscitations
- 2017Hot Melt Extrusion and Spray Drying of Co-amorphous Indomethacin-Arginine With Polymerscitations
- 2017Probing Pharmaceutical Mixtures during Milling:citations
- 2017Amorphization within the tabletcitations
- 2017Influence of preparation pathway on the glass forming abilitycitations
- 2017Performance comparison between crystalline and co-amorphous salts of indomethacin-lysinecitations
- 2016Influence of variation in molar ratio on co-amorphous drug-amino acid systemscitations
- 2016Glass forming ability of amorphous drugs investigated by continuous cooling- and isothermal transformationcitations
- 2016Development of a screening method for co-amorphous formulations of drugs and amino acidscitations
- 2016INFLUENCE OF THE COOLING RATE AND THE BLEND RATIO ON THE PHYSICAL STABILTIY OF CO-AMORPHOUS NAPROXEN/INDOMETHACINcitations
- 2016Glass solution formation in water - In situ amorphization of naproxen and ibuprofen with Eudragit® E POcitations
- 2016Investigation of physical properties and stability of indomethacin-cimetidine and naproxen-cimetidine co-amorphous systems prepared by quench cooling, coprecipitation and ball millingcitations
- 2016Properties of the Sodium Naproxen-Lactose-Tetrahydrate Co-Crystal upon Processing and Storagecitations
- 2015Formation mechanism of coamorphous drug−amino acid mixturescitations
- 2015Predicting Crystallization of Amorphous Drugs with Terahertz Spectroscopy.
- 2015Characterization of Amorphous and Co-Amorphous Simvastatin Formulations Prepared by Spray Dryingcitations
- 2015Evaluation of drug-polymer solubility curves through formal statistical analysiscitations
- 2015Solid-state properties and dissolution behaviour of tablets containing co-amorphous indomethacin-argininecitations
- 2015Predicting Crystallization of Amorphous Drugs with Terahertz Spectroscopycitations
- 2014The influence of pressure on the intrinsic dissolution rate of amorphous indomethacincitations
- 2013Amino acids as co-amorphous stabilizers for poorly water soluble drugs--Part 1citations
- 2011Coamorphous drug systems: enhanced physical stability and dissolution rate of indomethacin and naproxencitations
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