Determination of dynamic surface tension and viscosity of non-Newtonian fluids from drop oscillations.
L. Yang, B. K. Kazmierski, S. D. Hoath, S. Jung, W. K. Hsiao, Y. Wang, A. Berson, O. Harlen, N. Kapur, C. D. Bain
Physics of Fluids, 2014
92
Programmable logic circuits for functional integrated smart plastic systems.
A. Sou, S. Jung, E. Gili, V. Pecunia, J. Joimel, G. Fichet, H. Sirringhaus
Organic Electronics, 2014
93
All-inkjet-printed, all-air-processed solar cells.
S. Jung *, A. Sou, K. Banger, D. H. Ko, P. C. Y. Chow, C. R. McNeill, H. Sirringhaus
Advanced Energy Materials, 2014
94
Inkjet printing of weakly elastic polymer solutions.
S. D. Hoath, D. C. Vadillo, O. G. Harlen, C. McIlroy, N. F. Morrison, W. K. Hsiao, T. R. Tuladhar, S. Jung, G. D. Martin, I. M. Hutchings
Journal of Non-Newtonian Fluid Mechanics, 2014
95
Jetting of complex fluids.
S. D. Hoath, J. R. Castrejon-Pita, W. K. Hsiao, S. Jung, G. D. Martin, I. M. Hutchings, T. R. Tuladhar, D. C. Vadillo, S. A. Butler, M. R. Mackley, C. McIlroy, N. F. Morrison, O. G. Harlen, H. N. Yow
Journal of Imaging Science and Technology, 2013
96
Drop speeds from drop-on-demand ink-jet print heads.
S. D. Hoath, W. K. Hsiao, S. Jung, G. D. Martin, I. M. Hutchings, N. F. Morrison, O. G. Harlen
Journal of Imaging Science and Technology, 2013
97
Inkjet-printed resistors with a wide resistance range for printed read-only memory applications.
S. Jung *, A. Sou, E. Gili, H. Sirringhaus
Organic Electronics, 2013
98
A simple criterion for filament break-up in drop-on-demand inkjet printing.
S. D. Hoath, S. Jung, I. M. Hutchings
Physics of Fluids, 2013
99
The role of viscoelasticity in drop impact and spreading for inkjet printing of polymer solution on a wettable surface.
S. Jung *, S. D. Hoath, I. M. Hutchings
Microfluidics and Nanofluidics, 2013
100
How PEDOT:PSS solutions produce satellite-free inkjets.
S. D. Hoath, S. Jung, W. K. Hsiao, I. M. Hutchings