11 |
Dynamic emulsion droplets enabled by interfacial assembly of azobenzene-functionalized nanoparticles under light and magnetic field Ji GB, Yang F, Yang YZ, Wei JJ, Yang ZJ Journal of Colloid and Interface Science, 583, 586, 2021 |
12 |
The influence of the negative wake on the deformation and breakup of viscoelastic droplets Carril-Naranjo F, Mena B, Samayoa D, Guerrero A, Figueroa-Espinoza B Korea-Australia Rheology Journal, 33(3), 283, 2021 |
13 |
Production of Uniform Microspheres Using a Simple Microfluidic Device with Silica Capillary Ahn GY, Choi IS, Song MJ, Han SK, Choi KH, Choi SW Macromolecular Research, 29(1), 82, 2021 |
14 |
The critical atomization conditions of high-potential fire suppressant droplets in an air flow Voytkov IS, Kuznetsov GV, Strizhak PA Powder Technology, 384, 505, 2021 |
15 |
Micro-explosion of a two-component droplet: How the initial temperature of the water core affects the breakup conditions and outcomes Antonov DV, Kuznetsov GV, Fedorenko RM, Strizhak PA Powder Technology, 382, 378, 2021 |
16 |
Adsorptive removal of oil drops from ASP flooding-produced water by polyether polysiloxane-grafted ZIF-8 Wu M, Zhai MJ, Li XB Powder Technology, 378, 76, 2021 |
17 |
Increased campesterol synthesis by improving lipid content in engineeredYarrowia lipolytica Qian YD, Tan SY, Dong GR, Niu YJ, Hu CY, Meng YH Applied Microbiology and Biotechnology, 104(16), 7165, 2020 |
18 |
EFFECTS OF TARGET AND PROJECTILE PARAMETERS ON COLLISION CHARACTERISTICS OF WATER DROPLETS Piskunov M, Shlegel NE, Strizhak PA Atomization and Sprays, 30(3), 171, 2020 |
19 |
Secondary atomization of gas-saturated liquid droplets as a result of their collisions and micro-explosion Antonov DV, Shlegel NE, Strizhak PA Chemical Engineering Research & Design, 162, 200, 2020 |
20 |
Experimental study on fusion and break-up motion after droplet collision Li Y, Ning Z, Lu M Chinese Journal of Chemical Engineering, 28(3), 712, 2020 |