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잉크젯 프린팅 피코 리터 액적 증발현상에 관한 실험적 연구
임태웅(Taewoong Lim),한세운(Sewoon Han),정재원(Jaewon Chung) 대한기계학회 2006 대한기계학회 춘추학술대회 Vol.2006 No.6
In graphical inkjet printing, a droplet is absorbed into a porous substrate soon after contact. However, in non-graphical inkjet printing, such as metal nanoparticle solution jetting on PCB, color filter printing for LCD, substrates do not absorb the solvent, so that the evaporation of the droplet plays an important role in the material deposition. In addition, for above applications including flexible electronics, both high resolution and high jetting frequency are required, which also depend on the evaporation of the droplet. While the evaporation of nano or micro liter droplet (greater than 500㎛ diameter) has been studied in the past, especially in the application of fire suppression, that of pico liter droplet (smaller than 100㎛ diameter) has not been studied extensively. In this work, the evaporation of 3-40 pico liter droplet (20-40㎛ diameter) of several pure fluids jetted by drop on demand piezo driven jetting head on the heated substrate was studied experimentally.
은 나노입자 박막 소결 및 나노초 레이저 어블레이션 특성
한세운(Sewoon Han),임태웅(Taewoong Lim),정재원(Jaewon Chung),김동조(Dongjo Kim),문주호(Jooho Moon) 대한기계학회 2006 대한기계학회 춘추학술대회 Vol.2006 No.6
Conventional integrated circuit fabrication processes are multi-step, involve high sintering temperature, toxic waste, and are therefore expensive. Therefore, employment of cost-effective drop on demand inkjet printing process is expected to give new opportunities in flexible electronics and other applications. However, the typical resolution of inkjet printing (=50~100㎛), which is mainly governed by the nozzle diameter, is an issue. In this work, sintering characteristics and ablation of Ag nanoparticles using frequency doubled Nd:YAG nanosecond laser were studied to apply for trimming electrical micro-conductor printed by inkjet. Ag nano particles dissolved in ethylene glycol was used and polyvinylpyrrolidone was added to prevent agglomeration. Here, nanoparticles are used to exploit the melting temperature depression compared to bulk material, so that printed metal nanoparticle film could be sintered at a reduced temperature compatible to polymer.