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microelectrode holder  (World Precision Instruments)


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    World Precision Instruments microelectrode holder
    Microelectrode Holder, supplied by World Precision Instruments, used in various techniques. Bioz Stars score: 94/100, based on 2 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
    https://www.bioz.com/result/microelectrode holder/product/World Precision Instruments
    Average 94 stars, based on 2 article reviews
    microelectrode holder - by Bioz Stars, 2026-03
    94/100 stars

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    (a-c) Schematic architecture of the microelectrodes on the membrane for organotypic culture, where (a) microelectrodes were printed only on top of the membrane, (b) double side microelectrodes (b) without and (c) with insulator at the bottom of the membrane; (d) nanocarbon ink drop produced from 50 μ m nozzle; (e) inkjet printing setup with 30mm Millicell culture plate insert; (f) cultured brain tissue in the culture well with microelectrodes printed as in the part (c).

    Journal: bioRxiv

    Article Title: Nanoporous Microelectrodes for Neural Electrophysiology Recordings in Organotypic Culture

    doi: 10.1101/2025.05.12.653414

    Figure Lengend Snippet: (a-c) Schematic architecture of the microelectrodes on the membrane for organotypic culture, where (a) microelectrodes were printed only on top of the membrane, (b) double side microelectrodes (b) without and (c) with insulator at the bottom of the membrane; (d) nanocarbon ink drop produced from 50 μ m nozzle; (e) inkjet printing setup with 30mm Millicell culture plate insert; (f) cultured brain tissue in the culture well with microelectrodes printed as in the part (c).

    Article Snippet: To fabricate double side printed microelectrode schematics , the membrane substrates were pierced using tungsten micro needles (<1 μ m tip diameter, 125 μ m shaft diameter, World Precision Instruments).

    Techniques: Membrane, Produced, Cell Culture

    SEM images for (a) neat PTFE membrane of culture insert substrate, (b) aerosol jet printed nanocarbon microelectrode on the PTFE membrane; (c) aerosol jet printed microelectrode (bottom) with AF2400 insulative cover (middle) on the PTFE membrane (top); (d) inkjet printed microelectrode (middle dark area) with AF2400 insulative cover on the PTFE membrane.

    Journal: bioRxiv

    Article Title: Nanoporous Microelectrodes for Neural Electrophysiology Recordings in Organotypic Culture

    doi: 10.1101/2025.05.12.653414

    Figure Lengend Snippet: SEM images for (a) neat PTFE membrane of culture insert substrate, (b) aerosol jet printed nanocarbon microelectrode on the PTFE membrane; (c) aerosol jet printed microelectrode (bottom) with AF2400 insulative cover (middle) on the PTFE membrane (top); (d) inkjet printed microelectrode (middle dark area) with AF2400 insulative cover on the PTFE membrane.

    Article Snippet: To fabricate double side printed microelectrode schematics , the membrane substrates were pierced using tungsten micro needles (<1 μ m tip diameter, 125 μ m shaft diameter, World Precision Instruments).

    Techniques: Membrane, Aerosol

    Excitation-emission photoluminescence (PL) maps of the microelectrodes (a) as printed and (b) after washing in water (to remove excess PS1).

    Journal: bioRxiv

    Article Title: Nanoporous Microelectrodes for Neural Electrophysiology Recordings in Organotypic Culture

    doi: 10.1101/2025.05.12.653414

    Figure Lengend Snippet: Excitation-emission photoluminescence (PL) maps of the microelectrodes (a) as printed and (b) after washing in water (to remove excess PS1).

    Article Snippet: To fabricate double side printed microelectrode schematics , the membrane substrates were pierced using tungsten micro needles (<1 μ m tip diameter, 125 μ m shaft diameter, World Precision Instruments).

    Techniques:

    Electrophysiology and biocompatibility of novel culture system. (a) High-impedance glass microelectrode recordings show well-defined multi-unit activity in a cultured brain slice in the presence of gabazine. (b) Low-impedance wire electrode recordings also show multi-unit activity with some rebound shot noise. (c) Cell counts show no significant difference in histology between control, nanocarbon and insulated nanocarbon conditions. (d) Example pad configuration (left) and brain slice in situ (right).

    Journal: bioRxiv

    Article Title: Nanoporous Microelectrodes for Neural Electrophysiology Recordings in Organotypic Culture

    doi: 10.1101/2025.05.12.653414

    Figure Lengend Snippet: Electrophysiology and biocompatibility of novel culture system. (a) High-impedance glass microelectrode recordings show well-defined multi-unit activity in a cultured brain slice in the presence of gabazine. (b) Low-impedance wire electrode recordings also show multi-unit activity with some rebound shot noise. (c) Cell counts show no significant difference in histology between control, nanocarbon and insulated nanocarbon conditions. (d) Example pad configuration (left) and brain slice in situ (right).

    Article Snippet: To fabricate double side printed microelectrode schematics , the membrane substrates were pierced using tungsten micro needles (<1 μ m tip diameter, 125 μ m shaft diameter, World Precision Instruments).

    Techniques: Activity Assay, Cell Culture, Slice Preparation, Control, In Situ