Hideyuki Kodama

Diamond-like carbon films deposited on polyethylene terephthalate substrates by radio frequency plasma chemical vapor deposition method

Diamond-like carbon (DLC) films were deposited on polyethylene terephthalate (PET) substrates with the rf plasma chemical vapor deposition method using C2H2 gas and were investigated on the chemical bonding characteristics and microstructures, comparing with those on Si substrates. At the initial stage of deposition (∼10 s), the DLC films deposited on PET substrates contained more sp2 bonds and the growth rate was higher. Then, the number of sp3 bonds increased and became unchanged after 10 s of deposition. Similar results were observed for DLC films on Si substrates. When the input power of rf plasma equipment was higher, the Cu200a1s x-ray photoelectron spectra from DLC films shifted to higher binding energy, but this shift was not observed for the films on Si substrates. Transmission electron microscope observation showed that the films were uniformly deposited on PET substrates and had amorphous structure without graphitic structure even in the restricted area.Diamond-like carbon (DLC) films were deposited on polyethylene terephthalate (PET) substrates with the rf plasma chemical vapor deposition method using C2H2 gas and were investigated on the chemical bonding characteristics and microstructures, comparing with those on Si substrates. At the initial stage of deposition (∼10 s), the DLC films deposited on PET substrates contained more sp2 bonds and the growth rate was higher. Then, the number of sp3 bonds increased and became unchanged after 10 s of deposition. Similar results were observed for DLC films on Si substrates. When the input power of rf plasma equipment was higher, the Cu200a1s x-ray photoelectron spectra from DLC films shifted to higher binding energy, but this shift was not observed for the films on Si substrates. Transmission electron microscope observation showed that the films were uniformly deposited on PET substrates and had amorphous structure without graphitic structure even in the restricted area.