Microelectrodes - Open Access .click

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High-density CMOS microelectrode array system for impedance spectroscopy and imaging of biological cells

, 2016
Vijay Viswam +8 more
openalex +2 more sources

Cuneiform Nucleus Stimulation Can Assist Gait Training to Promote Locomotor Recovery in Individuals With Incomplete Tetraplegia

Annals of Neurology, EarlyView.
Objective Impaired ability to induce stepping after incomplete spinal cord injury (SCI) can limit the efficacy of locomotor training, often leaving patients wheelchair‐bound. The cuneiform nucleus (CNF), a key mesencephalic locomotor control center, modulates the activity of spinal locomotor centers via the reticulospinal tract.
Anna‐Sophie Hofer +21 more
wiley +1 more source

Fabrication and characterization of gold ultra and microelectrodes <a name="_VPID_11"></a></a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Revista Técnica de la Facultad de Ingeniería</i>, 2004 </span><br><span class="r_content">Microelectrodos de oro de 10 y 60 µm de diámetro fueron fabricados utilizando alambres de oro. Estos microelectrodos fueron caracterizados electroquímicamente y utilizando microscopía de barrido electrónico para determinar la forma real de la superficie ...</span><br><span class="r_sub"><i>Sabino Menolasina</i></span><br><small><a href="https://doaj.org/article/47e990647bbe4954b78c41fca0f7e043" target="_blank" rel="nofollow" title="doaj.org/article/47e990647bbe4954b78c41fca0f7e043">doaj</a> </small> <br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1620/tjem.68.249" target="_blank" rel="nofollow">Flicker and Fusion of Potentials Recorded from Fish Retina with a Microelectrode</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: bronze" title="open access: bronze" width="16" height="16">, 1958 </span><br><span class="r_sub"><i>Köiti Motokawa<span id="ma_4" style="display:none">, Toshihiko Oikawa, Kyoji Tasaki, Eizo Yamashita</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_4')">+3 more</a></small></i></span><br><small><a href="https://openalex.org/W2080542113" target="_blank" rel="nofollow" title="openalex.org/W2080542113">openalex</a> </small> <div id="more_4" style="display:none"><a href="/sci_redir.php?doi=10.1620%2Ftjem.68.249" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="https://www.jstage.jst.go.jp/article/tjem1920/68/3-4/68_3-4_249/_pdf" target="_blank" rel="nofollow" title="jstage.jst.go.jp/article/tjem1920/68/3-4/68_3-4_249/_pdf">jstage.jst.go.jp</a><br> <a href="javascript:navigator.clipboard.writeText('10.1620/tjem.68.249'); alert('Copied the doi');">copy doi</a> <small>(10.1620/tjem.68.249)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_4')">+2 more sources</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1097/jcma.0000000000000248" target="_blank" rel="nofollow">Inhibitory concentration of propofol in combination with dexmedetomidine during microelectrode recording for deep brain stimulator insertion surgeries under general anesthesia</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: hybrid" title="open access: hybrid" width="16" height="16">, 2020 </span><br><span class="r_sub"><i>Yu-Shan Lin<span id="ma_5" style="display:none">, Kang-Du Liu, Chi Chang, Huai-Zhe Yang, Mei‐Yung Tsou, Ya‐Chun Chu</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_5')">+5 more</a></small></i></span><br><small><a href="https://openalex.org/W2998806172" target="_blank" rel="nofollow" title="openalex.org/W2998806172">openalex</a> </small> <div id="more_5" style="display:none"><a href="/sci_redir.php?doi=10.1097%2Fjcma.0000000000000248" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1097/jcma.0000000000000248'); alert('Copied the doi');">copy doi</a> <small>(10.1097/jcma.0000000000000248)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_5')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1002/anbr.202500107" target="_blank" rel="nofollow">Bioprinted Excitable Tissues with Multistimulation Systems for Promoting Function and Maturation</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Advanced NanoBiomed Research, EarlyView.</i></span><br><span class="r_content">This review provides an overview of stimulation strategies used to enhance the functional maturation of bioprinted excitable tissues. It addresses key limitations in physiological performance of bioprinted excitable tissues, outlines major stimulation modalities—including electrical, mechanical, optical, magnetic, ultrasound, and hybrid—and examines ...</span><br><span class="r_sub"><i>Uijung Yong, Jinseon Park, Jinah Jang</i></span><br><small><a href="https://onlinelibrary.wiley.com/doi/10.1002/anbr.202500107?mi=2or9o2m&af=R&AllField=microelectrodes&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/anbr.202500107?mi=2or9o2m&af=R&AllField=microelectrodes&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small> <div id="more_6" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Fanbr.202500107" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/anbr.202500107'); alert('Copied the doi');">copy doi</a> <small>(10.1002/anbr.202500107)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_6')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1038/s41378-025-01040-z" target="_blank" rel="nofollow">High-performance co-oscillating electrochemical vector hydrophone based on integrated microelectrodes with microgrooves.</a> <b><a href="https://europepmc.org/backend/ptpmcrender.fcgi?accid=PMC12612241&blobtype=pdf" target="_blank" rel="nofollow">[PDF]</a></b> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Microsyst Nanoeng</i></span><br><span class="r_sub"><i>Zhang H<span id="ma_7" style="display:none">, Lu Y, Hu L, Liu Q, Zhao W, Jiang H, Zhu M, Sun Z, Gou G, Chen D, Wang J.</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_7')">+10 more</a></small></i></span><br><small><a href="https://europepmc.org/article/MED/41224745#free-full-text" target="_blank" rel="nofollow" title="europepmc.org/article/MED/41224745#free-full-text">europepmc</a> </small> <div id="more_7" style="display:none"><a href="/sci_redir.php?doi=10.1038%2Fs41378-025-01040-z" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1038/s41378-025-01040-z'); alert('Copied the doi');">copy doi</a> <small>(10.1038/s41378-025-01040-z)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_7')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1116/1.4997358" target="_blank" rel="nofollow">Twenty-four-micrometer-pitch microelectrode array with 6912-channel readout at 12 kHz via highly scalable implementation for high-spatial-resolution mapping of action potentials</a> <b><a href="https://avs.scitation.org/doi/pdf/10.1116/1.4997358" target="_blank" rel="nofollow">[PDF]</a></b> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: hybrid" title="open access: hybrid" width="16" height="16">, 2017 </span><br><span class="r_sub"><i>Jun Ogi<span id="ma_8" style="display:none">, Yuri Kato, Yoshihisa Matoba, Chigusa Yamane, Kazunori Nagahata, Yusaku Nakashima, Takuya Kishimoto, Shigeki Hashimoto, Koichi Maari, Yusuke Oike, Takayuki Ezaki</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_8')">+10 more</a></small></i></span><br><small><a href="https://openalex.org/W2778505167" target="_blank" rel="nofollow" title="openalex.org/W2778505167">openalex</a> </small> <div id="more_8" style="display:none"><a href="/sci_redir.php?doi=10.1116%2F1.4997358" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1116/1.4997358'); alert('Copied the doi');">copy doi</a> <small>(10.1116/1.4997358)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_8')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1002/anie.202519077" target="_blank" rel="nofollow">Electrochemical Protection of Cyanobacterial Cells from Molecular Oxygen Enables Sustained PhotoH2 Production</a> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Angewandte Chemie International Edition, EarlyView.</i></span><br><span class="r_content">Photosynthetic microorganisms can be used to perform H2 evolution driven by light. However, a crucial limitationlies in the associated generation of molecular oxygen as a by‐product of photosynthesis, which compromises the activity of the biocatalyst performing H2 production, i.e., the hydrogenase.</span><br><span class="r_sub"><i>Panpan Wang<span id="ma_9" style="display:none">, Florian Paul, Marko Boehm, Jens Appel, Kirstin Gutekunst, Wolfgang Schuhmann, Felipe Conzuelo</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_9')">+6 more</a></small></i></span><br><small><a href="https://onlinelibrary.wiley.com/doi/10.1002/anie.202519077?mi=2or9o2m&af=R&AllField=microelectrodes&ConceptID=15941&content=articlesChapters&target=default" target="_blank" rel="nofollow" title="wiley.com/doi/10.1002/anie.202519077?mi=2or9o2m&af=R&AllField=microelectrodes&ConceptID=15941&content=articlesChapters&target=default">wiley</a> </small> <div id="more_9" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Fanie.202519077" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/anie.202519077'); alert('Copied the doi');">copy doi</a> <small>(10.1002/anie.202519077)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_9')">+1 more source</a></small><br></div><div class="r"><p class="r_title"><a href="https://doi.org/10.1002/smtd.202501720" target="_blank" rel="nofollow">Long-Term Stable Neural Interfaces with Nanoporous Graphene Electrodes and Hybrid Polyimide-Aluminium Oxide Encapsulation.</a> <b><a href="https://europepmc.org/backend/ptpmcrender.fcgi?accid=PMC12716225&blobtype=pdf" target="_blank" rel="nofollow">[PDF]</a></b> </p><span class="r_subtitle"><img src="/img/openaccess.ico" alt="open access: yes" title="open access: yes" width="16" height="16"><i>Small Methods</i></span><br><span class="r_sub"><i>Katirtsidis GA<span id="ma_10" style="display:none">, Illa X, Ria N, Del Corro E, Masvidal Codina E, Garrido JA.</span> <small><a href="#" style="color:#808080;" onClick="return toggle_div(this, 'ma_10')">+5 more</a></small></i></span><br><small><a href="https://europepmc.org/article/MED/41215614#free-full-text" target="_blank" rel="nofollow" title="europepmc.org/article/MED/41215614#free-full-text">europepmc</a> </small> <div id="more_10" style="display:none"><a href="/sci_redir.php?doi=10.1002%2Fsmtd.202501720" target="_blank" rel="nofollow">openaccessbutton.org (pdf)</a><br><a href="javascript:navigator.clipboard.writeText('10.1002/smtd.202501720'); alert('Copied the doi');">copy doi</a> <small>(10.1002/smtd.202501720)</small><br></div><small><a href="#" onClick="return toggle_div(this, 'more_10')">+1 more source</a></small><br></div><div class="r"><div style="margin-bottom:2px;overflow:hidden"><div style="display: inline-block; float: left; font-size: small; padding-right: 16px; margin-top: -1px; padding-bottom: 1px;"><a href="/q-microelectrode/" class="suggestion"onclick="show_loader();"><b>microelectrode</b></a><br/><a href="/q-electrode/" class="suggestion"onclick="show_loader();"><b>electrode</b></a><br/><a href="/q-chemistry/" class="suggestion"onclick="show_loader();"><b>chemistry</b></a><br/></div><div style="display: inline-block; float: left; font-size: small; padding-right: 16px; margin-top: -1px; padding-bottom: 1px;"><a href="/q-physical_chemistry/" class="suggestion"onclick="show_loader();"><b>physical chemistry</b></a><br/><a href="/q-materials_science/" class="suggestion"onclick="show_loader();"><b>materials science</b></a><br/><a href="/q-nanotechnology/" class="suggestion"onclick="show_loader();"><b>nanotechnology</b></a><br/></div><div style="display: inline-block; 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