Inkjet-Printed Xerogel Scaffolds Enabled Room-Temperature Fabrication of High-Quality Metal Electrodes for Flexible Electronics

Inkjet-printed metal electrodes with desirable morphologies and electrical properties are indispensable cornerstones for printable and flexible electronics. However, methods to fabricate metal electrodes nowadays mostly request the sintering of printed metal particles, which not only will easily damage heat-sensitive plastic substrates, but also is difficult to achieve a smooth, neat, and highly adhesive electrode structure. Herein, a room-temperature, solution-processable copper (Cu) electrode is demonstrated to overcome the above issues. The key is to inkjet print a stable xerogel scaffold with high porosity, good uniformity, and smoothness for growing high-quality Cu via electroless deposition. Xerogel-based Cu electrodes exhibit a bi-layer architecture, consisting of an upper thin-film Cu (with an electrical conductivity of approximate to 1.2 x 10(7) S m(-1)) and a bottom Cu-polymer interpenetrated network. The electrodes show an excellent uniformity, surface smoothness, high interfacial energy to the plastic substrates (690-970 mJ m(-2)), and good flexibility. Taking these merits, the electrodes can be patterned onto various plastic substrates and fabricate all-solution-processed electronic devices such as organic thin-film transistors and organic electrochemical transistors with stable electrical performance.

Automated summary

This study presents a new method to address the issues faced in inkjet-printed metal electrodes. By inkjet printing a stable xerogel scaffold and growing high-quality copper electrodes through electroless deposition, metal electrodes with desirable electrical properties are achieved at room temperature. These metal electrodes demonstrate excellent uniformity, surface smoothness, and high interfacial energy with plastic substrates, making them suitable for fabricating various electronic devices.