Literature DB >> 28504338

Plasmonic-Based Electrochemical Impedance Imaging of Electrical Activities in Single Cells.

Xian-Wei Liu1,2, Yunze Yang2, Wei Wang3, Shaopeng Wang2, Ming Gao4, Jie Wu4, Nongjian Tao2.   

Abstract

Studying electrical activities in cells, such as action potential and its propagation in neurons, requires a sensitive and non-invasive analytical tool that can image local electrical signals with high spatial and temporal resolutions. Here we report a plasmonic-based electrochemical impedance imaging technique to study transient electrical activities in single cells. The technique is based on the conversion of the electrical signal into a plasmonic signal, which is imaged optically without labels. We demonstrate imaging of the fast initiation and propagation of action potential within single neurons, and validate the imaging technique with the traditional patch clamp technique. We anticipate that the plasmonic imaging technique will contribute to the study of electrical activities in various cellular processes.
© 2017 Wiley-VCH Verlag GmbH & Co. KGaA, Weinheim.

Entities:  

Keywords:  electrical activity; electroanalytical chemistry; electrochemical impedance microscopy; single cells; surface plasmon resonances

Mesh:

Year:  2017        PMID: 28504338      PMCID: PMC5837822          DOI: 10.1002/anie.201703033

Source DB:  PubMed          Journal:  Angew Chem Int Ed Engl        ISSN: 1433-7851            Impact factor:   15.336


  30 in total

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5.  Charge-based detection of small molecules by plasmonic-based electrochemical impedance microscopy.

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9.  Voltage-induced membrane movement.

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Authors:  François St-Pierre; Jesse D Marshall; Ying Yang; Yiyang Gong; Mark J Schnitzer; Michael Z Lin
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  12 in total

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2.  Nanoscale electrochemical kinetics & dynamics: the challenges and opportunities of single-entity measurements.

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Review 3.  Surface Plasmon Resonance Microscopy: From Single-Molecule Sensing to Single-Cell Imaging.

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4.  Moving Electrons Purposefully through Single Molecules and Nanostructures: A Tribute to the Science of Professor Nongjian Tao (1963-2020).

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5.  Imaging Action Potential in Single Mammalian Neurons by Tracking the Accompanying Sub-Nanometer Mechanical Motion.

Authors:  Yunze Yang; Xian-Wei Liu; Hui Wang; Hui Yu; Yan Guan; Shaopeng Wang; Nongjian Tao
Journal:  ACS Nano       Date:  2018-03-28       Impact factor: 15.881

Review 6.  Surface Plasmon Resonance: Material and Interface Design for Universal Accessibility.

Authors:  Samuel S Hinman; Kristy S McKeating; Quan Cheng
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7.  Imaging Single Bacterial Cells with Electro-optical Impedance Microscopy.

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8.  Optical Electrophysiology: Toward the Goal of Label-Free Voltage Imaging.

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9.  Electrochemical impedance spectroscopy of single Au nanorods.

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10.  Graphene Electric Field Sensor Enables Single Shot Label-Free Imaging of Bioelectric Potentials.

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Journal:  Nano Lett       Date:  2021-06-08       Impact factor: 11.189
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