DEVELOPMENT AND OPTIMIZATION OF HIGH-PRECISION INKJET PRINTING TECHNOLOGIES FOR MANUFACTURING FLEXIBLE ELECTRONIC DEVICES WITH ENHANCED ELECTRICAL CONDUCTIVITY AND MECHANICAL DURABILITY

IAEME Journals

Go Back Research Article January, 2025

International Journal of Printing Technology

DEVELOPMENT AND OPTIMIZATION OF HIGH-PRECISION INKJET PRINTING TECHNOLOGIES FOR MANUFACTURING FLEXIBLE ELECTRONIC DEVICES WITH ENHANCED ELECTRICAL CONDUCTIVITY AND MECHANICAL DURABILITY

IAEME Journals

Abstract

Inkjet printing has emerged as a transformative manufacturing technique for flexible electronics due to its precision and versatility. This paper explores the optimization of high-precision inkjet printing technologies for fabricating devices with enhanced electrical conductivity and mechanical durability. By reviewing 2023 advancements, it highlights the role of advanced inks, substrate materials, and process control techniques in improving device performance and scalability.

Keywords

Inkjet Printing Flexible Electronics Electrical Conductivity Mechanical Durability Advanced Materials

Document Preview

Download PDF

Details

Volume 3

Issue 1

Pages 1-6

ISSN 1798-1548

DEVELOPMENT AND OPTIMIZATION OF HIGH-PRECISION INKJET PRINTING TECHNOLOGIES FOR MANUFACTURING FLEXIBLE ELECTRONIC DEVICES WITH ENHANCED ELECTRICAL CONDUCTIVITY AND MECHANICAL DURABILITY

Abstract

Keywords

Cite this publication

QUICKLINKS

CONTACT US