How PEDOT:PSS solutions produce satellite-free inkjets.
S. D. Hoath, S. Jung, W. K. Hsiao, I. M. Hutchings
Organic Electronics, 2012
92
Inkjet-printed graphene electronics.
F. Torrisi, T. Hasan, W. Wu, Z. Sun, A. Lombardo, T. S. Kulmala, G. W. Hsieh, S. Jung, F. Bonaccorso, P. J. Paul, D. Chu, A. C. Ferrari
ACS Nano, 2012
93
The impact and spreading of a small liquid drop on a non-porous substrate over an extended time scale.
S. Jung *, I. M. Hutchings
Soft Matter, 2012
94
Experimental study of atomization patterns produced by the oblique collision of two viscoelastic liquid jets.
S. Jung, S. D. Hoath, G. D. Martin, I. M. Hutchings
Journal of Non-Newtonian Fluid Mechanics, 2011
95
A new method to assess the jetting behavior of drop-on-demand ink jet fluids.
S. Jung, S. D. Hoath, G. D. Martin, I. M. Hutchings
Journal of Imaging Science and Technology, 2011
96
Atomization patterns produced by the oblique collision of two Newtonian liquid jets.
S. Jung, S. D. Hoath, G. D. Martin, I. M. Hutchings
Physics of Fluids, 2010
97
Evaluation of the inkjet fluid’s performance using the “Cambridge Trimaster” filament stretch and break-up device.
D. C. Vadillo, T. R. Tuladhar, A. C. Mulji, S. Jung, S. D. Hoath, M. R. Mackley
Journal of Rheology, 2010
98
Novel phase-matching condition for a four wave mixing experiment in an optical fiber.
S. Jung *, J. Y. Lee, D. Y. Kim
Optics Express, 2006
99
Highly accurate wavelength scanned four-wave mixing experiment in an optical fiber and demonstration of retrieval of its linear and nonlinear optical parameters.
S. Jung *, J. Y. Lee, D. Y. Kim
Journal of Nonlinear Optical Physics & Materials, 2006