中文摘要：

Plasticizers that are generally used in plastics to produce flexible food packaging materials have proved to cause reproductive system problems and women’s infertility.A longterm consumption may even cause cancer diseases.Hence a nano-scale layer,named as functional barrier layer,was deposited on the plastic surface to prevent plasticizer diethylhexyl phthalate’s(DEHP) migration from plastics to foods.The feasibility of functional barrier layer i.e.SiO x coating through plasma enhanced chemical vapor deposition(PECVD) process was then described in this paper.We used Fourier transform infrared spectroscopy(FTIR) to analyze the chemical composition of coatings,scanning electron microscope(SEM) to explore the topography of the coating surfaces,surface profilemeter to measure thickness of coatings,and high-performance liquid chromatography(HPLC) to evaluate the barrier properties of coatings.The results have clearly shown that the coatings can perfectly block the migration of the DEHP from plastics to their containers.It is also concluded that process parameters significantly influence the block efficiency of the coatings.When the deposition conditions of SiO x coatings were optimized,i.e.50 W of the discharge power,4:1 of ratio of O 2:HMDSO,and ca.100 nm thickness of SiO x,71.2% of the DEHP was effectively blocked.

英文摘要：

Plasticizers that are generally used in plastics to produce flexible food packaging materials have proved to cause reproductive system problems and women＇s infertility. A long- term consumption may even cause cancer diseases. Hence a nano-scale layer, named as functional barrier layer, was deposited on the plastic surface to prevent plasticizer diethylhexyl phthalate＇s （DEHP） migration from plastics to foods. The feasibility of functional barrier layer i.e. SiOx coating through plasma enhanced chemical vapor deposition （PECVD） process was then described in this paper. We used Fourier transform infrared spectroscopy （FTIR） to analyze the chemical composition of coatings, scanning electron microscope （SEM） to explore the topography of the coating surfaces, surface profilemeter to measure thickness of coatings, and high-performance liquid chromatography （HPLC） to evaluate the barrier properties of coatings. The results have clearly shown that the coatings can perfectly block the migration of the DEHP from plastics to their containers. It is also concluded that process parameters significantly influence the block efficiency of the coatings. When the deposition conditions of SiOx coatings were optimized, i.e. 50 W of the discharge power, 4 ： 1 of ratio of O2 ： HMDSO, and ca.100 nm thickness of SiOx, 71.2% of the DEHP was effectively blocked.