Consideration of Improved Adhesion of Direct Copper Seed Layer by Medium-Vacuum Sputtering Using Vacuum Ultraviolet Light

ECS Meeting Abstracts Pub Date : 2023-08-28 DOI:10.1149/ma2023-01301811mtgabs

Shinichi Endo, Akihiro Shimizu, Hiroyuki Ueyama, Kazuhiro Fukada, Yuta Kashiwagi, Hirosuke Takamatsu, Kiyoaki Hashimoto, Ryotaro Takahashi

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Abstract

A sputtering method is used to form the seed layer for copper electric plating. In general, copper spatter has weak adhesion to resin, so titanium spatter is combined to increase the adhesion strength. However, etching in the lithography process requires two types of processes, titanium and copper metal. We have reported the improvement of adhesion of copper sputter to glass epoxy resin by medium vacuum sputtering equipment in 242nd ECS meeting. Adhesion strength was improved by performing vacuum ultraviolet treatment as a pretreatment for medium-vacuum sputtering. We discovered the relationship between the hydroxyl groups on the resin surface and the adhesion force by the chemical modification XPS method. Furthermore, by XPS analysis of the peeled copper interface, the adhesion mechanism between the resin and copper due to UV irradiation was estimated. We evaluated the absorption properties in the vacuum ultraviolet region of a thinly processed glass epoxy resin. We investigated the behavior of functional groups at the interface and considered the effect of vacuum ultraviolet rays in the depth direction.

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真空紫外光中真空溅射提高直接铜种层附着力的研究

采用溅射法形成电镀铜的种层。一般来说，铜飞溅剂对树脂的附着力较弱，所以结合钛飞溅剂来增加附着力。然而，在光刻工艺中蚀刻需要两种工艺，钛金属和铜金属。我们在第242届ECS会议上报告了介质真空溅射设备改善铜溅射与玻璃环氧树脂的附着力。采用真空紫外处理作为中真空溅射的前处理，提高了材料的附着强度。通过化学改性XPS法，发现了树脂表面羟基与附着力之间的关系。此外，通过对剥离铜界面的XPS分析，推测了紫外光照射下树脂与铜的粘附机理。研究了一种薄型玻璃环氧树脂在真空紫外区的吸收性能。我们研究了界面官能团的行为，并考虑了真空紫外线在深度方向上的影响。

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ECS Meeting Abstracts

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