Surface modification of low-density polyethylene (LDPE) film and improvement of adhesion between evaporated copper metal film and LDPE

To improve the interfacial adhesion between evaporated copper film and low- density polyethylene (LDPE) film, the surface of LDPE films was modified by treating with chromic acid [K2Cr2O7/H2O/H2SO4 (4.4/7.1/88.5)]/oxygen plasm a. Chromic-acid-etched LDPE was exposed to oxygen plasma to achieve a highe r content of polar groups on the LDPE surface. We investigated the effect o f the treatment time of chromic acid in the range of 1-60 min at 70 degrees C and oxygen plasma in the range of 30-90 see on the extent of polar groups created on the LDPE. We also investigated the surface topography of and wa ter contact angle on the LDPE film surface, mechanical properties of the LD PE film, and adhesion strength of the evaporated copper metal film to the L DPE film surface. IR and electron spectroscopy for chemical analysis reveal ed the introduction of polar groups on the modified LDPE film surface, whic h exhibited an improved contact angle and copper/LDPE adhesion. The number of polar groups and the surface roughness increased with increasing treatme nt time of chromic acid/plasma. Water contact angle significantly decreased with increasing treatment time of chromic acid/plasma. Combination treatme nt of oxygen plasma with chromic acid drastically decreased the contact ang le. When the treatment times of chromic acid and oxygen plasma were greater than 10 min and 30 see, respectively, the contact angle was below 20 degre es. With an increasing treatment time of chromic acid, the tensile strength of the LDPE film decreased, and the film color changed after about 10 min and then became blackened after 30 min. With the scratch test, the adhesion between copper and LDPE was found to increase with an increasing treatment time of chromic acid/oxygen plasma. From these results, we found that the optimum treatment times with chromic acid and oxygen plasma were near 30 mi n and 30 sec, respectively. (C) 2001 John Wiley & Sons, Inc.