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Observing a single ion channel to the live measuring of ion channel releases, binding marker molecules have dominated neuroscience with fixation and permeabilization. With the advent of various designs of neural probes and non-bonded physical markers, a time has arrived when state-of-the-art imaging techniques are being developed globally that deliver a live hologram of a single cell with minimal toxicity. This special issue is aimed to document technologies like scanning ion-conductance microscopy, STORM, scanning dielectric conductance microscopy, and other novel techniques for imaging dynamic cellular processes, We want to document realistic results closer to in vivo scenarios, for 2D and 3D cultured cellular studies of neurons and neural networks. We welcome submissions for all electromagnetic resonance-based wireless characterizations of neural networks covering all neural functions.

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Lead Editor: Dr. Anirban Bandyopadhyay

                      International Institute for materials Science, Japan

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Special Issue information:

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