摘要
Pulsed electrohydrodynamic printing(EHDP) is used to fabricate conductive silver patterns with micrometer resolution.The silver ink pendant experiences swelling,pulsation,and ejection under an applied pulse voltage of 20 Hz.The droplet deposition frequency is equal to the applied voltage frequency so that the EHDP can deposit silver ink on demand.A low applied voltage favors uniform and non-scattering silver patterns while a high applied voltage results in ink scattering.Discrete droplets with 45-55 m in diameter and continuous tracks with 60 m in width are generated by using a 110-m-cailber nozzle.The feature size of deposited patterns is about half of the nozzle caliber,and a finer resolution can be achieved with the introduction of smaller nozzle calibers.Furthermore,the appropriate curing condition is investigated for sufficient combustion of ink solvent.The minimum resistivity of 3.3 cm is demonstrated for a continuous track cured at 200°C for 10 min.Eventually,several passive electrical components,such as coated resistors,interdigitated capacitors(6 pF),and spiral inductors(0.6 H),are successfully fabricated.
Pulsed electrohydrodynamic printing (EHDP) is used to fabricate conductive silver patterns with micrometer resolution. The silver ink pendant experiences swelling, pulsation, and ejection under an applied pulse voltage of 20 Hz. The droplet deposi- tion frequency is equal to the applied voltage frequency so that the EHDP can deposit silver ink on demand. A low applied voltage favors uniform and non-scattering silver patterns while a high applied voltage results in ink scattering. Discrete drop- lets with 45-55 gm in diameter and continuous tracks with 60 gm in width are generated by using a ll0-i.tm-cailber nozzle. The feature size of deposited patterns is about half of the nozzle caliber, and a finer resolution can be achieved with the intro- duction of smaller nozzle calibers. Furthermore, the appropriate curing condition is investigated for sufficient combustion of ink solvent. The minimum resistivity of 3.3 gf~ cm is demonstrated for a continuous track cured at 200~C for 10 min. Eventu- ally, several passive electrical components, such as coated resistors, interdigitated capacitors (6 pF), and spiral inductors (0.6 gH), are successfully fabricated.
基金
supported by the National Natural Science Foundation of China (Grant No. 51035002)
the Key Project of Chinese Ministry of Edu-cation (Grant No. 708055)
the Fundamental Research Funds for the Central Universities (Grant No. 2010121039)
关键词
脉冲电压
电银
印刷
电流体
喷嘴口径
沉积模式
固化条件
流体动力
electrohydrodynamic printing, inkjet printing, drop on demand, printed electronics, silver ink, conductive pattern
