Krzysztof Paluch
Lecturer in Medicines Development and Pharmaceutic
School of Pharmacy and Medical Sciences
Bradford University
United Kingdom
Biography
Krzysztof J. Paluch joined University of Bradford as a Lecturer in Medicines Development and Pharmaceutical Sciences. He holds an MSc in Pharmacy from Jagiellonian University Krakòw (2005) and Ph.D. in Pharmaceutical Sciences from Trinity College, University of Dublin (2011). He is a Project Management Associate (Irish Institute Project Management Ireland, 2012). His research interests focus on: screening and characterization of novel salts and co-crystals, characterization of amorphous forms, nanoparticles and spray dried microparticles. His collaborations include projects with: Trinity College Dublin, University of Silesia, University of Gdansk and others. To date, his research was funded by: Irish Research Council for Science, Engineering and Technology and Science Foundation Ireland.
Research Interest
Solid-state and micromeritic characterisation of spray dried microparticles Physicochemical characterisation of high-energy forms of active pharmaceutical ingredients Nanoparticulate-based delivery systems New salts and co-crystalline forms screening and characterisation
Publications
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Matthias Manne Knopp, Lidia Tajber, Yiwei Tian, Niels Erik Olesen, David S Jones, Agnieszka Kozyra, Korbinian Löbmann, Krzysztof Paluch, Claire Marie Brennan, René Holm, Anne Marie Healy, Gavin P Andrews, Thomas Rades Comparative Study of Different Methods for the Prediction of Drug–Polymer Solubility, Molecular pharmaceutics. 2015, 12, 9, 3408-3419
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DR Serrano, P O'Connell, KJ Paluch, D Walsh, AM Healy. Cocrystal habit engineering to improve drug dissolution and alter derived powder properties Journal of Pharmacy and Pharmacology 2015, DOI: 10.1111/jphp.12476
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Zaneta Wojnarowska, Krzysztof J Paluch, Evgeni Shoifet, Christoph Schick, Lidia Tajber, Justyna Knapik, Patryk Wlodarczyk, Katarzyna Grzybowska, Stella Hensel-Bielowka, Sergey P Verevkin, Marian Paluch, Molecular origin of enhanced proton conductivity in anhydrous ionic systems. Journal of the American Chemical Society. 2015, 137, 3, 1157-1164
