Abstract

A highly energetic carbon precursor suitable for the solvent assisted nanoimprint lithography is presented. The interdigital electrodes in the fabricated micro-supercapacitors show excellent device capacitances and high cycling stability.

Highlights

  • View Article OnlineTailoring the performance is achieved by variation of electrode distances and carbonization temperatures

  • The establishment of portable electronic devices in medicine, technical applications and consumer electronics attracted an immense attention in research of miniaturized modules

  • We present the printing of high-resolution interdigital micro-structures with line widths of 500 nm and distances down to only 1 mm using the investigated energy-rich carbon precursor

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Summary

View Article Online

Tailoring the performance is achieved by variation of electrode distances and carbonization temperatures

Introduction
Results and discussion
Precursor characterization
Nanoimprint lithography
Electrochemical characterization
Precursor preparation
Compact film formation
Preparation of thin film supercapacitors
Electrolyte synthesis
Conclusions

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