Microelectrodes

Improving Fast Ripples Recording with Model-Guided Design of Microelectrodes

Improving Fast Ripples Recording with Model-Guided Design of Microelectrodes

Improving Fast Ripples Recording with Model-Guided Design of Microelectrodes 780 435 IEEE Transactions on Biomedical Engineering (TBME)
This model-based approach can be highly valuable in the design of Hybrid micro-macro depth electrodes used in the presurgical evaluation of epileptic patients with drug-resistant epilepsy. read more

Electroporation Microchip With Integrated Conducting Polymer Electrode Array for Highly Sensitive Impedance Measurement

Electroporation Microchip With Integrated Conducting Polymer Electrode Array for Highly Sensitive Impedance Measurement IEEE Transactions on Biomedical Engineering (TBME)
An in vitro platform is presented that monitors the degree of electroporation while cells are treated with pulsed electric fields. The developed electroporation chip can assess the integrity of a monolayer of cells by performing electrochemical impedance spectroscopy with microelectrodes. The sensitivity of the system is significantly enhanced by reducing the impedance of the sensing electrodes which is achieved by applying a PEDOT:PSS coating. The integrated system of sensing and stimulation electrodes provides feedback on treatment progression and can be used to study electroporation dynamics. read more

Close-Packed Silicon Microelectrodes for Scalable Spatially Oversampled Neural Recording

Author(s)3: Jörg Scholvin, Justin P. Kinney, Jacob G. Bernstein, Caroline Moore-Kochlacs, Nancy Kopell, Clifton G. Fonstad, Edward S. Boyden
Close-Packed Silicon Microelectrodes for Scalable Spatially Oversampled Neural Recording 170 177 IEEE Transactions on Biomedical Engineering (TBME)

Jorg Scholvin, Justin P. Kinney, Jacob G. Bernstein, Caroline Moore-Kochlacs, Nancy Kopell, Clifton G. Fonstad, Edward S. Boyden, Massachusetts Institute of Technology & Boston University, USA Neural recording electrodes are important for…

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