about
New thermoresistant polymorph from CO2 recrystallization of minocycline hydrochloride.Connecting high-temperature and low-temperature protein stability and aggregation.Antibody nanoparticle dispersions formed with mixtures of crowding molecules retain activity and in vivo bioavailability.Measuring and modeling hemoglobin aggregation below the freezing temperature.Formation of indomethacin-saccharin cocrystals using supercritical fluid technology.Frozen-state storage stability of a monoclonal antibody: aggregation is impacted by freezing rate and solute distribution.The importance of heat flow direction for reproducible and homogeneous freezing of bulk protein solutions.Improving Heat Transfer at the Bottom of Vials for Consistent Freeze Drying with Unidirectional Structured Ice.Screening for pharmaceutical cocrystals using the supercritical fluid enhanced atomization processInsight into the Mechanisms of Cocrystallization of Pharmaceuticals in Supercritical SolventsTuning physicochemical properties of theophylline by cocrystallization using the supercritical fluid enhanced atomization techniqueSingle-Step Co-Crystallization and Lipid Dispersion by Supercritical Enhanced AtomizationDevelopment of a novel mucosal vaccine against strangles by supercritical enhanced atomization spray-drying of Streptococcus equi extracts and evaluation in a mouse modelTheophylline polymorphs by atomization of supercritical antisolvent induced suspensionsAnti-solvent effect in the production of lysozyme nanoparticles by supercritical fluid-assisted atomization processesVapor–liquid equilibria and volume expansion of the tetrahydrofuran/CO2 system: Application to a SAS-atomization processBinary solid–liquid–gas equilibrium of the tripalmitin/CO2 and ubiquinone/CO2 systemsModeling of the PGSS process by crystallization and atomizationVLE of Carbon Dioxide/Ethanol/Water: Applications to Volume Expansion Evaluation and Water Removal EfficiencyEffect of freezing rate and dendritic ice formation on concentration profiles of proteins frozen in cylindrical vessels
P50
Q30824419-697A1884-39AE-46F2-A1BD-8C4EAA886DD6Q36362989-7E84D7A6-BAA1-49BB-A989-726A91FF1A8DQ37194634-8C5FC4E7-9B57-4C78-BC10-7D3B17BFF49CQ45235020-BE19E526-CD6A-42FA-854D-028807379C07Q45992229-C3822D34-8829-4A17-8673-A41FD4C9C8A1Q46605262-23D84EE1-7BCE-4072-8B28-79324A9D5E10Q46733155-071B93AB-BB0B-4AF3-9EAA-3E325C13C984Q51672312-92B72BD0-C5D9-4A0A-8CB5-FAF186F448B4Q56001140-3B490ED2-4AB6-4C19-994E-8680177922A1Q57563419-95EC40B4-1A7C-4E20-A9F0-F1F3D5EB44C2Q57563435-3C7375D5-531C-4878-859D-60C444660EBBQ57563447-B90AFFCA-A935-40B4-BE75-AB0E5B55CFD1Q57563456-6347760E-2612-4396-8CCF-8E21A61657B7Q57563482-71C432E3-8438-4AEB-ADC7-10ABE1A57092Q57563497-88BCFE5B-C4F1-44D4-AF9A-3F93AB4AA65AQ57563539-F87E5012-0953-4A5A-A51A-6698B9BD20CBQ57563541-34DFA5AE-F34D-43CF-9955-FEAFE8FD1B02Q57563556-AAC199ED-BC02-41DC-A056-3B3804EA7DB4Q57563557-F34EEF76-E832-44CB-A783-6629BBBD7CF9Q86069120-77079308-2D56-4E69-BA03-316DD91CD637
P50
description
researcher ORCID ID = 0000-0001-9841-441X
@en
wetenschapper
@nl
name
Miguel A. Rodrigues
@ast
Miguel A. Rodrigues
@en
Miguel A. Rodrigues
@es
Miguel A. Rodrigues
@nl
type
label
Miguel A. Rodrigues
@ast
Miguel A. Rodrigues
@en
Miguel A. Rodrigues
@es
Miguel A. Rodrigues
@nl
prefLabel
Miguel A. Rodrigues
@ast
Miguel A. Rodrigues
@en
Miguel A. Rodrigues
@es
Miguel A. Rodrigues
@nl
P106
P1153
55425476200
P21
P31
P496
0000-0001-9841-441X