Application of auto-catalytic metallization as a sustainable technique for planar inductor fabrication

2016 IEEE Conference on Technologies for Sustainability (SusTech) Pub Date : 1900-01-01 DOI:10.1109/SUSTECH.2016.7897142

R. Kamali-Sarvestani, E. Nielson, Paul Weber, A. Johnston

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Abstract

Onboard passive components are very popular in electrical and electronics manufacturing technologies. Methods of printed circuit board manufacturing, used for making passive onboard devices such as inductors, have been unchanged for decades. Current PCB technology uses subtractive processes which involve acids and solvents which produce significant toxic waste in creating the metallic layers. In this paper auto-catalytic metallization is studied as the best candidate to replace the old process. Inductors designs were fabricated and measured. Similar inductors were made by high-resolution inkjet printers using silver nanoparticles. Comparison of these two methods showed lower resistivity of conductors and significant improvement in the quality of inductors fabricated using autocatalytic method. This new method is additive and eliminates the use of hazardous chemicals such as acids and solvents during the fabrication process. It also reduces the number of fabricating steps and improves the fabrication speed.

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自催化金属化技术在平面电感制造中的应用

板载无源元件在电气和电子制造技术中非常流行。用于制造无源板上器件(如电感器)的印刷电路板制造方法几十年来一直没有改变。目前的PCB技术使用的是减法工艺，这涉及到酸和溶剂，在制造金属层时产生大量的有毒废物。本文研究了自催化金属化工艺作为替代旧工艺的最佳选择。制作并测量了电感器的设计。类似的电感器是由高分辨率的喷墨打印机用纳米银制成的。两种方法的比较表明，采用自催化方法制备的电感的电阻率更低，质量也有显著提高。这种新方法是添加剂，在制造过程中消除了酸和溶剂等危险化学品的使用。减少了加工步骤，提高了加工速度。

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2016 IEEE Conference on Technologies for Sustainability (SusTech)

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