| 1 |
Investigation of the molecular state of 4-aminosalicylic acid in matrix formulations for dry powder inhalers using solid-state fluorescence spectroscopy of 4-dimethylaminobenzonitrile
Tse JY, Kadota K, Yang ZJ, Uchiyama H, Tozuka Y
Advanced Powder Technology, 30(10), 2422, 2019 |
| 2 |
Evaluation of carrier size and surface morphology in carrier-based dry powder inhalation by surrogate modeling
Farizhandi AAK, Paclawski A, Szlek J, Mendyk A, Shao YH, Lau R
Chemical Engineering Science, 193, 144, 2019 |
| 3 |
TAILORING DRY POWDER INHALER PERFORMANCE BY MODIFYING CARRIER SURFACE TOPOGRAPHY BY SPRAY DRYING
Maas SG, Schaldach G, Walzel PE, Urbanetz NA
Atomization and Sprays, 20(9), 763, 2010 |
| 4 |
Preparation of microsized spherical aggregates of ultrafine ciprofloxacin particles for dry powder inhalation (DPI)
Zhao H, Le Y, Liu HY, Hu TT, Shen ZG, Yun J, Chen JF
Powder Technology, 194(1-2), 81, 2009 |
| 5 |
Non-dimensional functional relationship for the fine particle fraction produced by dry powder inhalers
Mendes PJ, Pinto JF, Sousa JMM
Journal of Aerosol Science, 38(6), 612, 2007 |
| 6 |
Characterization of pharmaceutical powder inhalers: estimation of energy input for powder dispersion and effect of capsule device configuration
Chew NYK, Chan HK, Bagster DF, Mukhraiya J
Journal of Aerosol Science, 33(7), 999, 2002 |
