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Nanotechnology ; 27(3): 035204, 2016 Jan 22.
Artigo em Inglês | MEDLINE | ID: mdl-26650708

RESUMO

To exceed the performance limits of dielectric capacitors in microelectronic circuit applications, we design and demonstrate on-chip coplanar electric double-layer capacitors (EDLCs), or supercapacitors, employing carbon-coated gold electrodes with ionogel electrolyte. The formation of carbon-coated microelectrodes is accomplished by solution processing and results in a ten-fold increase in EDLC capacitance compared to bare gold electrodes without carbon. At frequencies up to 10 Hz, an areal capacitance of 2.1 pF µm(-2) is achieved for coplanar carbon-ionogel EDLCs with 10 µm electrode gaps and 0.14 mm(2) electrode area. Our smallest devices, comprised of 5 µm electrode gaps and 80 µm(2) of active electrode area, reach areal capacitance values of ∼0.3 pF µm(-2) at frequencies up to 1 kHz, even without carbon. To our knowledge, these are the highest reported values to date for on-chip EDLCs with sub-mm(2) areas. A physical EDLC model is developed through the use of computer-aided simulations for design exploration and optimization of coplanar EDLCs. Through modeling and comparison with experimental data, we highlight the importance of reducing the electrode gap and electrolyte resistance to achieve maximum performance from on-chip EDLCs.

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