How to achieve sub-cellular-level spatial resolution and sub-spike-level temporal resolution at same time is still a technical challenge in neural mapping while both information are critically important to advance neural science. Here, we present penetrating arrays consisted of single-neuron level transparent microelectrodes with low impedance coating which could realize the high spatial and temporal resolution at the same time. These 32-channel transparent penetrating electrodes with record-… | Zendy

Zhan Shi | Zendy

Open Access

How to achieve sub-cellular-level spatial resolution and sub-spike-level temporal resolution at same time is still a technical challenge in neural mapping while both information are critically important to advance neural science. Here, we present penetrating arrays consisted of single-neuron level transparent microelectrodes with low impedance coating which could realize the high spatial and temporal resolution at the same time. These 32-channel transparent penetrating electrodes with record-…

Author(s) -

Zhan Shi

Publication year - 2020

Language(s) - English

Resource type - Dissertations/theses

DOI - 10.17760/d20382839

Subject(s) - temporal resolution , image resolution , microelectrode , spike (software development) , bending , materials science , electrical impedance , resolution (logic) , electrode , computer science , nanotechnology , artificial intelligence , composite material , electrical engineering , optics , engineering , physics , software engineering , quantum mechanics

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