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Self-assembled three-dimensional and compressible interdigitated thin-film supercapacitors and batteries.

Nature communications (2015-05-30)
Gustav Nyström, Andrew Marais, Erdem Karabulut, Lars Wågberg, Yi Cui, Mahiar M Hamedi
ABSTRAKT

Traditional thin-film energy-storage devices consist of stacked layers of active films on two-dimensional substrates and do not exploit the third dimension. Fully three-dimensional thin-film devices would allow energy storage in bulk materials with arbitrary form factors and with mechanical properties unique to bulk materials such as compressibility. Here we show three-dimensional energy-storage devices based on layer-by-layer self-assembly of interdigitated thin films on the surface of an open-cell aerogel substrate. We demonstrate a reversibly compressible three-dimensional supercapacitor with carbon nanotube electrodes and a three-dimensional hybrid battery with a copper hexacyanoferrate ion intercalating cathode and a carbon nanotube anode. The three-dimensional supercapacitor shows stable operation over 400 cycles with a capacitance of 25 F g(-1) and is fully functional even at compressions up to 75%. Our results demonstrate that layer-by-layer self-assembly inside aerogels is a rapid, precise and scalable route for building high-surface-area 3D thin-film devices.

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Sigma-Aldrich
Phenylacetic acid, 99%
Sigma-Aldrich
Phenylacetic acid, ≥99%, FCC, FG