Dr. Ahmed Ismail

Academic Fellow
Research
Microfluidics, Electrospray, Dynamics of Drops, Microencapsulation
Interests
Study the dynamics of fluids flow in micro-scale to develop microfluidic devices for applications such as hydrodynamic bio-fabrication of complex structures and microencapsulation.
Publications

Publications of specific relevance to Predictive in vitro Models
2019

Xia HH,
Ismail A, Yao J and Stark J (2019).
Scaling Laws for Transition from Varicose to Whipping Instabilities in Electrohydrodynamic Jetting. American Physical Society (Aps) Physical Review Applied vol. 12, (1)
10.1103/physrevapplied.12.0140312018
ISMAIL AS, Ganan-Calvo A,
CASTREJON PITA JR, Herreda M and Castrejon-Pita AA (2018).
Controlled Cavity Collapse: Scaling Laws of Drop Formation., Editors: Stebe K.
Royal Society of Chemistry Soft Matter 10.1039/C8SM00114F2016
ISMAIL A, Lopez-Herrera JM, Herrada MA, Modesto-Lopez LB and Gañán-Calvo AM (2016).
Effect of a Surrounding Liquid Environment on the Electrical Disruption of Pendant Droplets. American Chemical Society Langmuir: The Acs Journal of Surfaces and Colloids vol. 32, (27) 6815-6824.
10.1021/acs.langmuir.6b012412015
ISMAIL A, Herrada MA, Gañán-Calvo AM and Montanero JM (2015).
Convective-to-absolute instability transition in a viscoelastic capillary jet subject to unrelaxed axial elastic tension. Physical Review E vol. 92, (2)
10.1103/PhysRevE.92.0230062014
ISMAIL AS, Herrada MA, López-Herrera JM and Gañán-Calvo AM (2014).
Isothermal dissolution of small rising bubbles in a low viscosity liquid. Chemical Engineering and Processing: Process Intensification vol. 85, 136-144.
10.1016/j.cep.2014.08.002