Nanoporous Pt Microelectrode for Neural Stimulation and Recording: In Vitro Characterization

Citations Over TimeTop 17% of 2010 papers

Abstract

3D-nanoporous Pt (L2-ePt) films on multiarrayed microelectrodes electroplated from reverse micelle (L2) phase were evaluated in vitro for neural cell stimulation and extracellular potential recording. Impedance, capacitance, and charge injection limit were measured for the L2-ePt electrodes with various surface specific areas, i.e., roughness factors. L2-ePt with a roughness factor of 223 showed optimum performances as neural stimulation and recording electrodes, and its electric characteristics were electrode impedance of 0.039 Ω cm2 (1.17 kHz), electrode volume specific capacitance of 43 F cm−3 (1.17 kHz), and charge injection limit of 3 mC cm−2 (400 μs). L2-ePt showed higher mechanical strength than the conventional platinized Pt (Pt black).

Related Papers

• → On the relationship between common amplitude surface roughness parameters and surface area: Implications for the study of cell–material interactions(2006)65 cited
• → 2D Surface Roughness Quantification for Enhanced Petrophysical Applications(2023)10 cited
• → Effect of the Surface Roughness on the Detecting Capacitance(2013)6 cited
• → Unveiling the Relationship of Surface Roughness on Superliquid-Repelling Properties with Randomly Distributed Rough Surface Structures(2022)2 cited
• Analysis on Surface Roughness of Material with Electron Beam on Different Finished Surface(2012)