期刊
ADVANCED FUNCTIONAL MATERIALS
卷 33, 期 16, 页码 -出版社
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.202213744
关键词
biomaterials; energy materials; materials science; nanotechnology; semiconductors; sensors
In recent years, printed electronics have gained popularity due to their unique features such as low-cost production, multifunctionality, stretchability, sustainability, and flexibility. With the increasing use of printed technologies in the future, especially with the advancements in the Internet of Things and the 4.0 revolution, it is important to discuss the relationship between printed technologies and electronic materials, including the joint features, interrelations, complementarities, interdependency, and challenges.
In recent years, printed electronics reached enormous popularity as a result of their huge potential to offer unique features that are not attainable through traditional fabrication, namely low-cost production, multifunctionality, stretchability, sustainability, and flexibility. Being expected a galloping increase in the use of printed technologies in the near future, due to the digitalization efforts associated with the Internet of Things and the 4.0 revolution, it is timely and desirable to discuss the joint features, the interrelations, the complementarities, the interdependency, and the most demanding challenges linked to the relation between printed technologies and electronic materials. In this context, this study offers a broad review of the numerous printing technologies used in the processing of electronics, commonly used substrates, the most effective printed electronic materials, and the key post-printing treatments such as sintering. Disruptive challenges in various printing techniques, (un)expected future research directions of printed electronics, and imminent application trends are also highlighted, following a critical and subjective perspective.
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