Joon-Won Kim scite author profile

Joon-Won Kim

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Fabrication of a Micro/Nano-scaled Super-water-repellent Surface and Its Impact Behaviors of a Shooting Water Droplet

Kim¹,

Lee²,

Lee³

et al. 2012

Journal of the Korean Society of Precision Engineering

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In this study, we fabricated the superhydrophobic and super-water-repellent surface with the micro/nano scale structures using simple conventional silicon wet-etching technique and the black silicon method by deep reactive ion etching. These fabrication methods are simple but very effective. Also we reported the droplet impact experimental results on the micro/nano-scaled surface. There are two representative impact behaviors as "rebound" and "fragmentation". We found the transition Weber number between "rebound" and "fragmentation" statements, experimentally. Additionally, we concerned about the dimensionless spreading diameters for our super-water-repellent surface. The novel characterization method was introduced for analysis including the "fragmentation" region. As a result, our super-water-repellent surface with the micro/nano-scaled structures shows the different impact behaviors compared with a reference smooth surface, by some meaningful experiments.

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Micro-particles in a Nanoliter Droplet Dispensed by a Pneumatic Dispensing System and Its Measurement

Lee¹,

Kim²

2012

Journal of the Korean Society of Precision Engineering

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This paper presents results for dispensing and measuring micro-particles using a pneumatic dispensing system. Particle-suspended liquid droplets were dispensed and analyzed quantitatively at various particle concentrations and applied pressures. By using a developed experimental setup, the number of particles and the particle volume ratio in sequentially dispensed droplets were measured. Hydrophilic and hydrophobic surfaces were tested to find a suitable surface for counting the number of particle. It was confirmed that the dispensed particles concentrated into the center of the droplet on the smooth CD surface after evaporation of liquid. As the applied positive pressure increased, the number of particles per droplet increased consistently and the volume fraction of particles remained constant.

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Joon-Won Kim

Fabrication of a Micro/Nano-scaled Super-water-repellent Surface and Its Impact Behaviors of a Shooting Water Droplet

Micro-particles in a Nanoliter Droplet Dispensed by a Pneumatic Dispensing System and Its Measurement

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