| 1 |
Hydrodynamic control of droplet breakup, immobilization, and coalescence for a multiplex microfluidic static droplet array
Jeong HH, Lee B, Jin SH, Lee CS
Chemical Engineering Journal, 360, 562, 2019 |
| 2 |
High-throughput controllable generation of droplet arrays with low consumption
Lin YY, Wu ZS, Gao YB, Wu JB, Wen WJ
Applied Surface Science, 442, 189, 2018 |
| 3 |
Flame spread between two droplets of different diameter in microgravity
Mikami M, Motomatsu N, Nagata K, Yoshida Y, Seo T
Combustion and Flame, 193, 76, 2018 |
| 4 |
Droplet-Array (DA) Sandwich Chip: A Versatile Platform for High-Throughput Cell Screening Based on Superhydrophobic-Superhydrophilic Micropatterning
Popova AA, Schillo SM, Demir K, Ueda E, Nesterov-Mueller A, Levkin PA
Advanced Materials, 27(35), 5217, 2015 |
| 5 |
COMPARISON OF THE FLAME SPREADING BEHAVIOR OF OIL-IN-WATER AND WATER-IN-OIL EMULSIONS ALONG LINEAR EMULSION DROPLET ARRAYS IN A MICROGRAVITY ENVIRONMENT
Yamada K, Kataoka H, Kagami T, Unno Y, Segawa D, Kadota T
Atomization and Sprays, 25(10), 917, 2015 |
| 6 |
Rich spray-flame propagating through a 2D-Lattice of alkane droplets in air
Nicoli C, Denet B, Haldenwang P
Combustion and Flame, 162(12), 4598, 2015 |
| 7 |
Flame-spread probability and local interactive effects in randomly arranged fuel-droplet arrays in microgravity
Oyagi H, Shigeno H, Milami M, Kojima N
Combustion and Flame, 156(4), 763, 2009 |
| 8 |
Microgravity experiments on flame spread along fuel-droplet arrays at high temperatures
Mikami M, Oyagi H, Kojima N, Wakashima Y, Kikuchi M, Yoda S
Combustion and Flame, 146(3), 391, 2006 |
| 9 |
Microgravity experiments on flame spread along fuel-droplet arrays using a new droplet-generation technique
Mikami M, Oyagi H, Kojima N, Kikuchi M, Wakashima Y, Yoda S
Combustion and Flame, 141(3), 241, 2005 |
