Electrophysiology Meets Printed Electronics: The Beginning of a Beautiful Friendship | Semantic Scholar Skip to search formSkip to main content> Semantic Scholar's Logo Search Sign InCreate Free Account You are currently offline. Some features of the site may not work correctly. DOI:10.3389/fnins.2018.00992 Corpus ID: 57376252Electrophysiology Meets Printed Electronics: The Beginning of a Beautiful Friendship @article{Inzelberg2019ElectrophysiologyMP, title={Electrophysiology Meets Printed Electronics: The Beginning of a Beautiful Friendship}, author={L. Inzelberg and Y. Hanein}, journal={Frontiers in Neuroscience}, year={2019}, volume={12} } L. Inzelberg, Y. Hanein Published 2019 Computer Science, Medicine Frontiers in Neuroscience Electroencephalography (EEG) and surface electromyography (sEMG) are notoriously cumbersome technologies. A typical setup may involve bulky electrodes, dangling wires, and a large amplifier unit. Adapting these technologies to numerous applications has been accordingly fairly limited. Thanks to the availability of printed electronics, it is now possible to effectively simplify these techniques. Elegant electrode arrays with unprecedented performances can be readily produced, eliminating the… Expand View on PubMed frontiersin.org Save to Library Create Alert Cite Launch Research Feed Share This Paper 6 CitationsBackground Citations 1 View All Figures and Topics from this paper figure 1 figure 2 electrode Surface Electromyography Neuroscience discipline Cross-Talk Electrophysiology (science) Brainwave Biofeedback 6 Citations Citation Type Citation Type All Types Cites Results Cites Methods Cites Background Has PDF Publication Type Author More Filters More Filters Filters Sort by Relevance Sort by Most Influenced Papers Sort by Citation Count Sort by Recency Wearable and Comfortable e-Textile Headband for Long-Term Acquisition of Forehead EEG Signals Manuel Reis Carneiro, Aníbal T. de Almeida, M. Tavakoli Computer Science IEEE Sensors Journal 2020 2 Save Alert Research Feed Electroantennography Measurement by Printed Electronics Electrode Naoki Yamada, S. Shigaki, +4 authors K. Hosoda Computer Science 2020 IEEE/SICE International Symposium on System Integration (SII) 2020 Save Alert Research Feed A 3D Printed Device for Low Cost Neural Stimulation in Mice T. Morrison, Elana Sefton, Melissa Marquez-Chin, M. Popovic, C. Morshead, H. Naguib Computer Science, Medicine Front. Neurosci. 2019 3 View 1 excerpt, cites background Save Alert Research Feed Critical Appraisal of Surface Electromyography (sEMG) as a Taught Subject and Clinical Tool in Medicine and Kinesiology V. Medved, S. Medved, I. Kovač Medicine Frontiers in Neurology 2020 3 Save Alert Research Feed The Influence of Screen-Printing Parameters on Properties of Conductive Layers for Application in Biomedical Electrodes L. Kołodziej, S. Ostrowski, A. Maciejewski, M. Jakubowska, G. Wróblewski Materials Science 2019 Save Alert Research Feed Biosensing in dermal interstitial fluid using microneedle based electrochemical devices Julia Madden, C. O'Mahony, M. Thompson, Alan O’Riordan, P. Galvin Materials Science 2020 6 Save Alert Research Feed References SHOWING 1-10 OF 61 REFERENCES SORT BYRelevance Most Influenced Papers Recency Ultraconformable Temporary Tattoo Electrodes for Electrophysiology Laura M. Ferrari, S. Sudha, +6 authors F. Greco Materials Science, Medicine Advanced science 2018 39 PDF View 3 excerpts, references background Save Alert Research Feed Temporary-tattoo for long-term high fidelity biopotential recordings Lilach Bareket, L. Inzelberg, +4 authors Y. Hanein Materials Science, Medicine Scientific reports 2016 38 PDF View 6 excerpts, references background and methods Save Alert Research Feed Inkjet printed flexible electrodes for surface electromyography R. Scalisi, M. Paleari, +4 authors A. Chiolerio Materials Science 2015 37 View 2 excerpts, references methods and background Save Alert Research Feed Comparison of three types of dry electrodes for electroencephalography P. Fiedler, J. Haueisen, +4 authors C. Fonseca Materials Science 2014 14 Highly Influential PDF View 4 excerpts, references background Save Alert Research Feed Dry EEG Electrodes M. A. Lopez-Gordo, D. S. Morillo, Francisco Pelayo Valle Engineering, Medicine Sensors 2014 175 PDF View 2 excerpts, references background Save Alert Research Feed Novel screen printed electrode set for routine EEG recordings in patients with altered mental status S. Myllymaa, P. Lepola, +5 authors Katja Myllymaa Materials Science, Medicine 2013 35th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC) 2013 5 View 2 excerpts, references background and methods Save Alert Research Feed New disposable forehead electrode set with excellent signal quality and imaging compatibility S. Myllymaa, P. Lepola, J. Töyräs, T. Hukkanen, Katja Myllymaa Medicine Journal of Neuroscience Methods 2013 22 View 2 excerpts, references background and methods Save Alert Research Feed Home monitoring of sleep with a temporary-tattoo EEG, EOG and EMG electrode array: a feasibility study. S. Shustak, L. Inzelberg, +8 authors Y. Hanein Computer Science, Medicine Journal of neural engineering 2019 15 Save Alert Research Feed Unobtrusive ambulatory EEG using a smartphone and flexible printed electrodes around the ear S. Debener, Reiner Emkes, M. de Vos, M. Bleichner Medicine Scientific reports 2015 186 Highly Influential PDF View 4 excerpts, references background and methods Save Alert Research Feed Screen-printed EEG electrode set for emergency use P. Lepola, S. Myllymaa, +4 authors Katja Myllymaa Computer Science 2014 23 View 2 excerpts, references methods Save Alert Research Feed ... 1 2 3 4 5 ... Related Papers Abstract Figures and Topics 6 Citations 61 References Related Papers Stay Connected With Semantic Scholar Sign Up About Semantic Scholar Semantic Scholar is a free, AI-powered research tool for scientific literature, based at the Allen Institute for AI. Learn More → Resources DatasetsSupp.aiAPIOpen Corpus Organization About UsResearchPublishing PartnersData Partners   FAQContact Proudly built by AI2 with the help of our Collaborators Terms of Service•Privacy Policy The Allen Institute for AI By clicking accept or continuing to use the site, you agree to the terms outlined in our Privacy Policy, Terms of Service, and Dataset License ACCEPT & CONTINUE