55‐4: XTPL approach to print conductive structures in microscale for next‐generation displays
A Wiatrowska, P Kowalczewski… - … Symposium Digest of …, 2019 - Wiley Online Library
A Wiatrowska, P Kowalczewski, M Dusza, M Zięba, K Fiączyk, P Cichoń, K Fijak, F Granek
SID Symposium Digest of Technical Papers, 2019•Wiley Online LibraryPrinting a wide range of nanomaterials and making the process scalable is the central
problem for industries that are shaping the technological landscape of the XXI century. In
this regard, the XTPL technology can be transforming for display industry. We mainly focus
on three key aspects: repair of open defects, fabrication of transparent conductive films
(TCFs), and deposition of quantum dots, which offers tremendous advantages of additive
manufacturing.
problem for industries that are shaping the technological landscape of the XXI century. In
this regard, the XTPL technology can be transforming for display industry. We mainly focus
on three key aspects: repair of open defects, fabrication of transparent conductive films
(TCFs), and deposition of quantum dots, which offers tremendous advantages of additive
manufacturing.
Printing a wide range of nanomaterials and making the process scalable is the central problem for industries that are shaping the technological landscape of the XXI century. In this regard, the XTPL technology can be transforming for display industry. We mainly focus on three key aspects: repair of open defects, fabrication of transparent conductive films (TCFs), and deposition of quantum dots, which offers tremendous advantages of additive manufacturing.
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