Flexible, ultra-light and wafer-thin – the future of electronics is printed! The cornerstones for this development are conductive inks and adhesives that connect components and sensors with each other, integrating them into a printed environment. A decisive role hereby is played by advanced materials, such as functional inks, and their interaction in final devices for application in various use-cases. For this purpose, various particle structures in the nanometre range are created that enable the required conductivity, while keeping material input of the conductive substance as low as possible. Due to the excellent properties, the versatile functionalities, the possible high production volumes and the associated reduced production costs a w...
Funding Information: Funding: The authors gratefully acknowledge the funding from Academy of Finland...
The society is transitioning towards a circular economy and the Digital Cellulose Center (DCC) that ...
Printed electronics (PE) is based on printing thin- and thick-film structures on cost-sensitive flex...
Flexible, ultra-light and wafer-thin – the future of electronics is printed! The cornerstones for th...
In the context of an Internet of things (IoT) vision, printed and embedded electronics have gained s...
In the last decades, the demand for electronics and, therefore, electronic waste, has increased. To ...
This paper focuses on evaluation of paper as a substrate for printed flexible electronics. The motiv...
This paper discusses applicability of sustainable substrate alternatives for printed and other roll-...
The demand for printed electronics (PE) is expected to increase for improved functionality and auton...
How can we fabricate more ecological friendly functional materials and electronic devices? Nowadays...
Printed circuit boards have been massively manufactured and wildly used in all kinds of electronic d...
Innovations in industrial automation, information and communication technology (ICT), renewable ener...
Abstract The concepts of IoT, AI, I4.0, and 6G provide amazing opportunities for improving our qual...
Printable electronics is a disruptive technology when compared to conventional electronics manufactu...
Nowadays the environmental impact of both used materials and manufacturing process of thin films is ...
Funding Information: Funding: The authors gratefully acknowledge the funding from Academy of Finland...
The society is transitioning towards a circular economy and the Digital Cellulose Center (DCC) that ...
Printed electronics (PE) is based on printing thin- and thick-film structures on cost-sensitive flex...
Flexible, ultra-light and wafer-thin – the future of electronics is printed! The cornerstones for th...
In the context of an Internet of things (IoT) vision, printed and embedded electronics have gained s...
In the last decades, the demand for electronics and, therefore, electronic waste, has increased. To ...
This paper focuses on evaluation of paper as a substrate for printed flexible electronics. The motiv...
This paper discusses applicability of sustainable substrate alternatives for printed and other roll-...
The demand for printed electronics (PE) is expected to increase for improved functionality and auton...
How can we fabricate more ecological friendly functional materials and electronic devices? Nowadays...
Printed circuit boards have been massively manufactured and wildly used in all kinds of electronic d...
Innovations in industrial automation, information and communication technology (ICT), renewable ener...
Abstract The concepts of IoT, AI, I4.0, and 6G provide amazing opportunities for improving our qual...
Printable electronics is a disruptive technology when compared to conventional electronics manufactu...
Nowadays the environmental impact of both used materials and manufacturing process of thin films is ...
Funding Information: Funding: The authors gratefully acknowledge the funding from Academy of Finland...
The society is transitioning towards a circular economy and the Digital Cellulose Center (DCC) that ...
Printed electronics (PE) is based on printing thin- and thick-film structures on cost-sensitive flex...