- Allow direct printing of electrical traces onto any surface
- Support sustainable & environmental benefits - fewer manufacturing steps & eliminates toxic chemicals and waste water
- Customer-tailored inks made first-ever drupa appearance
Presented for the first time at a drupa international tradeshow, visitors to this year’s exhibition were able to experience the benefits of Clariant’s PRELECT® TPS Nano Silver Conductive Inks for Ink- and Aerosol Jet application. The water based inks feature functional Silver Nano particles with specifically developed dispersants and capping agents from Clariant’s own portfolio. The inks, which offer excellent product performance, enable manufacturers to print highly-defined electric patterns directly onto any surface for a number of environmental and manufacturing efficiency benefits.
From an environmental standpoint, manufacturers can eliminate hazardous chemical metallization processes which use toxic chemicals and generate contaminated waste water. Productivity-wise, depending on the application, the direct printing of electrical traces in connection with additive manufacturing cuts down on the number of manufacturing steps compared to electroplating.
Carsten Schauer, Head of New Business Project Electronic Materials at Clariant, comments: “Customers choosing PRELECT TPS Nano Silver Conductive Inks benefit from an optimized solution, fit for industrial application, that draws on Clariant’s expertise in producing and combining particles and critical additives for functional inks. Our mass production capabilities also mean we can respond quickly to individual customer delivery requirements. These factors create added value for customers in the printed electronics segment.”
PRELECT TPS Nano Silver Conductive Inks are already proving their value on a range of specialized devices and very thin surface layers requiring high conductivity. For example, printed cell collection grids in photovoltaic, printed cell phone antennae, RFIP antennae, printed touch sensor interconnects and EMI shielding layers.