Electrofluorochromic imaging analysis of dopamine release from living PC12 cells with bipolar nanoelectrodes array

“…Biphasic electrochemical and optical impedance measurements of neonatal rat ventricular myocytes grown on this device characterized single cells quantitatively. Beyond cell proliferation, Tian et al monitored dopamine release via fluorescence microscopy at PC12 cells cultured on an array of bipolar gold rods . Lastly, microwells on arrayed electrodes within a microfluidic cell were used to capture single Sclerotinia sclerotiorum fungi for quantification with EIS .…”

“…Beyond cell proliferation, Tian et al monitored dopamine release via fluorescence microscopy at PC12 cells cultured on an array of bipolar gold rods. 60 Lastly, microwells on arrayed electrodes within a microfluidic cell were used to capture single Sclerotinia sclerotiorum fungi for quantification with EIS. 61 In this study, a nanogap electrode was used to improve single-molecule DNA sequencing accuracy.…”

Recent Developments in Single-Entity Electrochemistry

“…Biphasic electrochemical and optical impedance measurements of neonatal rat ventricular myocytes grown on this device characterized single cells quantitatively. Beyond cell proliferation, Tian et al monitored dopamine release via fluorescence microscopy at PC12 cells cultured on an array of bipolar gold rods . Lastly, microwells on arrayed electrodes within a microfluidic cell were used to capture single Sclerotinia sclerotiorum fungi for quantification with EIS .…”

“…Beyond cell proliferation, Tian et al monitored dopamine release via fluorescence microscopy at PC12 cells cultured on an array of bipolar gold rods. 60 Lastly, microwells on arrayed electrodes within a microfluidic cell were used to capture single Sclerotinia sclerotiorum fungi for quantification with EIS. 61 In this study, a nanogap electrode was used to improve single-molecule DNA sequencing accuracy.…”

Recent Developments in Single-Entity Electrochemistry

Micro/nanoelectrode-based electrochemical methodology for single cell and organelle analysis

In situ noninvasive monitoring of cell secretions based on MOFs/AAO hybrid membrane induced asymmetric ion transport