Author: Dennis Kuppens – Product Manager at SUSS Microtec Netherlands b.v.
At SUSS MicroTec, our vision is to lead the way in enabling innovative semiconductor advanced backend and photomask solutions. In this article, we will explore how this vision extends beyond our own innovations to enable third-party innovation through SUSS PiXDRO inkjet technology.
For years, the SUSS LP50 R&D Inkjet printer, featuring PiXDRO technology, has set the standard for researchers and engineers in developing and validating inkjet inks and processes, from R&D to high-volume production, across universities, research institutes, high-tech startups, and multinational companies.
Whether you start in an ink development phase, a prototype development phase or a pilot-production phase, the LP50 printer can be configured and even field-upgraded to suit your current and future development needs.
The 500+ research papers which are published on Google Scholar are a firm testimony to this.
These articles highlight a wide variety of innovative applications where inkjet technology is being used for functional devices. All the papers have been submitted by users of SUSS LP50 printers, with more than 400 printers installed and used daily by researchers worldwide.
Below are three abstracts of the most recent publications that can be found on Google Scholar.
Development of a Screening Platform for Optimizing Chemical Nanosensor Materials (Published: Aug 24, 2024)
Inkjet-printing and characterization of undoped zinc oxide thin films (Published: Aug 5, 2024)
Compact multispectral light field camera based on an inkjet-printed microlens array and color filter array (Publication: June 17, 2024)
Summary
These publications are a perfect illustration of how SUSS realizes its vision of enabling innovation. Beyond the three applications discussed, there are over 500 studies on the use of inkjet technology with the SUSS LP50 printer available on Google Scholar. These studies span various fields, including semiconductors, PCBs, flexible devices, pharmaceuticals, battery technology, medical devices, printed electronics, OLED display technology, and more. You can access all these papers through the LP50 website: https://lp50.suss.com
Are you inspired? Reach out to SUSS to discover how we can support and enhance your innovation. We are eager to assist with your projects, collaborate on ink development, or provide the LP50 as a platform for your modules and business needs. You can fill out a web form on the LP50 website to get started: https://lp50.suss.com and explore other innovative products here www.suss.com
References:
Development of a Screening Platform for Optimizing Chemical Nanosensor Materials (Published: Aug 24, 2024) - https://www.mdpi.com/1424-8220/24/17/5565
Inkjet-printing and characterization of undoped zinc oxide thin films (Published: Aug 5, 2024) - https://www.sciencedirect.com/science/article/abs/pii/S0925346724011145
Compact multispectral light field camera based on an inkjet-printed microlens array and color filter array (Publication: June 17, 2024) - https://opg.optica.org/oe/fulltext.cfm?uri=oe-32-13-23510&id=551644
Google Scholar - https://scholar.google.com/scholar?q=lp50+pixdro
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