XTPL – ULTRAPRECISE PRINTING OF NANOMATERIALS

EXAMPLES OF APPLICATIONS FOR XTPL TECHNOLOGY

OPEN DEFECT REPAIR – repairing extremely fine broken metallic structures

  • solar cells
  • displays TFT/LCD/OLED
  • integrated circuits (IC)
  • printed circuit boards (PCB)
  • multichip modules (MCM)
  • photolithographic masks

TRANSPARENT CONDUCTIVE FILMS (TCF) for:

  • displays
  • thin film photovoltaic cells
  • touchscreens or smartphone

RESEARCH & PROTOTYPING

BIOSENSORS

PRINTED ELECTRONICS

FLEXIBLE ELECTRONICS

SMART PACKAGING SOLUTIONS

WEARABLES

ANTI-COUNTERFEITING SOLUTIONS

LAB-ON-A-CHIP SOLUTIONS

 

RESEARCH & PROTOTYPING

XTPL delivers advanced solutions for research & prototyping. The heart of the XTPL technology – innovative printing head, electronics and software algorithms – all designed by company’s specialists – are the core of the system driving the electric field and the assembly process of nanoparticles. This comprehensive system is implemented in XTPL’s Nanometric Lab Printer.

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TRANSPARENT CONDUCTIVE FILMS

The solution developed by XTPL will facilitate the production of a new generation of Transparent Conductive Films (TCF) that are widely used in manufacturing, primarily in the production of displays, monitors, touch screens & photovoltaic cells. Currently, the most commonly used TCF layers are based on indium-tin oxide (ITO), which has serious disadvantages, that is why the industry is looking for new technology as an alternative to ITO. Such technology has been developed by XTPL.

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OPEN DEFECTS REAPAIR

Micro- and nano-conductive structures are indispensable in the broadly understood electronics (i.e. integrated circuits, LCD/ OLED displays, PCBs, solar cells and many others). This sector faces a major problem related to those fine conductive structures often being damaged at the production stage. The repair methods currently available on the market are very limited, complicated and costly. XTPL offers a new breakthrough solution that allows defects in conductive paths to be repaired at low cost, with precision and speed unparalleled to any other existing solution.

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