Metal interconnects, contacts, and electrodes are indispensable elements for most applications of flexible, stretchable, and wearable electronics. Current fabrication methods for these metal conductors are mainly based on conventional microfabrication procedures that have been migrated from Si semiconductor industries, which face significant challenges for organic-based compliant substrates. This Research News highlights a recently developed full-solution processing strategy, polymer-assisted metal deposition (PAMD), which is particularly suitable for the roll-to-roll, low-cost fabrication of high-performance compliant metal conductors (Cu, Ni, Ag, and Au) on a wide variety of organic substrates including plastics, elastomers, papers, and t...
The growing needs for human healthcare have driven the development of wearable devices for monitorin...
Stretchable conductors are the basic units of advanced flexible electronic devices, such as skin‐lik...
The use of solution-processable electrically conducting films is imperative for realizing next-gener...
7th Textile Bioengineering and Informatics Symposium (TBIS 2014) / 5th Asian Protective Clothing Con...
Summary: Stretchable, biocompatible devices can bridge electronics and biology. However, most stretc...
This thesis describes a novel microfabrication process to produce thick-film copper microstructures ...
Surface-grafted polymers, that is, ultrathin layers of polymer coating covalently tethered to a surf...
The working hypothesis for this research project is that it is possible to develop a new functional ...
Conducting polymers (CPs) have been attracting great attention in the development of (bio)electronic...
abstract: Flexible conducting materials have been in the forefront of a rapidly transforming electro...
The study was conducted for fabrication of elastomeric wires by selective electroless metallization ...
We report a simple, low-cost method for the fabrication of copper wires and contacts on a wide range...
This dissertation reports a diverse range of new components for the fabrication of soft flexible, st...
Purpose – This paper seeks to give an overview on the benefits and challenges of moulded interconnec...
The authors report a new patterned electroless metallization process for creating micro- and nanosca...
The growing needs for human healthcare have driven the development of wearable devices for monitorin...
Stretchable conductors are the basic units of advanced flexible electronic devices, such as skin‐lik...
The use of solution-processable electrically conducting films is imperative for realizing next-gener...
7th Textile Bioengineering and Informatics Symposium (TBIS 2014) / 5th Asian Protective Clothing Con...
Summary: Stretchable, biocompatible devices can bridge electronics and biology. However, most stretc...
This thesis describes a novel microfabrication process to produce thick-film copper microstructures ...
Surface-grafted polymers, that is, ultrathin layers of polymer coating covalently tethered to a surf...
The working hypothesis for this research project is that it is possible to develop a new functional ...
Conducting polymers (CPs) have been attracting great attention in the development of (bio)electronic...
abstract: Flexible conducting materials have been in the forefront of a rapidly transforming electro...
The study was conducted for fabrication of elastomeric wires by selective electroless metallization ...
We report a simple, low-cost method for the fabrication of copper wires and contacts on a wide range...
This dissertation reports a diverse range of new components for the fabrication of soft flexible, st...
Purpose – This paper seeks to give an overview on the benefits and challenges of moulded interconnec...
The authors report a new patterned electroless metallization process for creating micro- and nanosca...
The growing needs for human healthcare have driven the development of wearable devices for monitorin...
Stretchable conductors are the basic units of advanced flexible electronic devices, such as skin‐lik...
The use of solution-processable electrically conducting films is imperative for realizing next-gener...