A Multimodal Multi‐Shank Fluorescence Neural Probe for Cell‐Type‐Specific Electrophysiology in Multiple Regions across a Neural Circuit [PDF]
Advanced Science, 2022 Cell‐type‐specific, activity‐dependent electrophysiology can allow in‐depth analysis of functional connectivity inside complex neural circuits composed of various cell types.
Namsun Chou +16 more
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A Lubricated Nonimmunogenic Neural Probe for Acute Insertion Trauma Minimization and Long‐Term Signal Recording [PDF]
Advanced Science, 2021 Brain‐machine interfaces (BMIs) that link the brain to a machine are promising for the treatment of neurological disorders through the bi‐directional translation of neural information over extended periods.
Yeontaek Lee +5 more
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Hybrid Multisite Silicon Neural Probe with Integrated Flexible Connector for Interchangeable Packaging [PDF]
Sensors, 2021 Multisite neural probes are a fundamental tool to study brain function. Hybrid silicon/polymer neural probes combine rigid silicon and flexible polymer parts into one single device and allow, for example, the precise integration of complex probe ...
Ashley Novais +6 more
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Flexible Neural Probe Fabrication Enhanced with a Low-Temperature Cured Polyimide and Platinum Electrodeposition [PDF]
Sensors, 2022 Polyimide is an emerging and very interesting material for substrate and passivation of neural probes. However, the standard curing temperature of polyimide (350 °C) is critical for the microelectrodes and contact pads of the neural probe, due to the ...
João R. Freitas +5 more
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A mosquito mouthpart-like bionic neural probe [PDF]
Microsystems & Nanoengineering, 2023 Advancements in microscale electrode technology have revolutionized the field of neuroscience and clinical applications by offering high temporal and spatial resolution of recording and stimulation.
Yu Zhou +9 more
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Characterization and Analysis of Metal Adhesion to Parylene Polymer Substrate Using Scotch Tape Test for Peripheral Neural Probe [PDF]
Micromachines, 2020 This paper presents measurement and FEM (Finite Element Method) analysis of metal adhesion force to a parylene substrate for implantable neural probe.
Seonho Seok, HyungDal Park, Jinseok Kim
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A silk-based self-adaptive flexible opto-electro neural probe [PDF]
Microsystems & Nanoengineering, 2022 The combination of optogenetics and electrophysiological recording enables high-precision bidirectional interactions between neural interfaces and neural circuits, which provides a promising approach for the study of progressive neurophysiological ...
Yu Zhou +9 more
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Double-Layer Flexible Neural Probe With Closely Spaced Electrodes for High-Density in vivo Brain Recordings [PDF]
Frontiers in Neuroscience, 2021 Flexible polymer neural probes are an attractive emerging approach for invasive brain recordings, given that they can minimize the risks of brain damage or glial scaring.
Sara Pimenta +12 more
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3D-printed optogenetic neural probe integrated with microfluidic tube for opsin/drug delivery [PDF]
Scientific ReportsOptogenetics, known for its precision in neural stimulation, is integral to behavioral research, enabling the study of neural circuits involved in decision-making, memory, social interaction, and movement.
Revathi Sukesan +5 more
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Control of neural probe shank flexibility by fluidic pressure in embedded microchannel using PDMS/PI hybrid substrate. [PDF]
PLoS ONE, 2019 Implantable neural probes are widely used to record and stimulate neural activities. These probes should be stiff enough for insertion. However, it should also be flexible to minimize tissue damage after insertion.
S Rezaei, Y Xu, S W Pang
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