화학공학소재연구정보센터
Applied Surface Science, Vol.471, 328-334, 2019
Electrothermal application of novolac-derived carbon micropatterns prepared by proton beam lithography and carbonization
High performance electric heaters based on carbon micropatterns (CMs), which were fabricated from a novolac resin by proton beam lithography (PBL) and carbonization, have been explored in this study. For the purpose, well-defined negative-type novolac micropatterns with crosslinked network structures were fabricated by PBL at the optimized fluence of 5 x 10(15) ions cm(-2) and then carbonized to form CMs. The fabricated 60-nm-thick CMs were characterized to have a high electrical conductivity of 2.12 x 10(2)S cm(-1) and a high optical transmittance of 78%. In an application as electric heaters, the 60-nm-thick CMs showed a high maximum temperature of 141.7 degrees C at 60 V with an excellent healing rate of 16.06 degrees Cs-1. Therefore, the prepared transparent electric heaters can be used in window defrosting/defogging, display, gas sensing, and medical equipment.