Articolo in rivista, 2023, ENG, 10.3390/nano13060976

Plasma-Assisted Atomic Layer Deposition of IrO2 for Neuroelectronics

Di Palma, Valerio; Pianalto, Andrea; Perego, Michele; Tallarida, Graziella; Codegoni, Davide; Fanciulli, Marco

Univ Milano Bicocca; CNR; STMicroelectronics

In vitro and in vivo stimulation and recording of neuron action potential is currently achieved with microelectrode arrays, either in planar or 3D geometries, adopting different materials and strategies. IrO2 is a conductive oxide known for its excellent biocompatibility, good adhesion on different substrates, and charge injection capabilities higher than noble metals. Atomic layer deposition (ALD) allows excellent conformal growth, which can be exploited on 3D nanoelectrode arrays. In this work, we disclose the growth of nanocrystalline rutile IrO2 at T = 150 degrees C adopting a new plasma-assisted ALD (PA-ALD) process. The morphological, structural, physical, chemical, and electrochemical properties of the IrO2 thin films are reported. To the best of our knowledge, the electrochemical characterization of the electrode/electrolyte interface in terms of charge injection capacity, charge storage capacity, and double-layer capacitance for IrO2 grown by PA-ALD was not reported yet. IrO2 grown on PtSi reveals a double-layer capacitance (C-dl) above 300 mu F center dot cm(-2), and a charge injection capacity of 0.22 +/- 0.01 mC center dot cm(-2) for an electrode of 1.0 cm(2), confirming IrO2 grown by PA-ALD as an excellent material for neuroelectronic applications.

Nanomaterials (Basel) 13 (6)

Keywords

pseudocapacitive, atomic layer deposition, IrO2, neuroelectronics

CNR authors

Perego Michele, Tallarida Graziella

CNR institutes