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Semi Transparent Electrode of Au nano mesh on Flexible Substrates Fabricated by Transfer Printing Using Self-Organized Porous Polymer Mold

機譯：通過自組織多孔聚合物模具通過轉印印刷制造的柔性基材上的Au納米網的半透明電極

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1. Semitransparent Gold-Meshed Electrode Fabricated by Transfer Printing Using Self-Organized Microporous Polymer Mold [J] . Yuichiro Yanagi, Ryo Nagata, Hirofumi Saito Journal of Photopolymer Science and Technology . 2014,第2期

機譯：自組織微孔聚合物模具通過轉移印刷制備的半透明金電極
2. Semitransparent Gold-Meshed Electrode Fabricated by Transfer Printing Using Self-Organized Microporous Polymer Mold [J] . Yuichiro Yanagi, Ryo Nagata, Hirofumi Saito, Journal of Photopolymer Science and Technology . 2014,第2期

機譯：自組織微孔聚合物模具通過轉移印刷制備的半透明金電極
3. Transparent Cu nanowire mesh electrode on flexible substrates fabricated by transfer printing and its application in organic solar cells [J] . Myung-Gyu Kang, Hui Joon Park, Se Hyun Ahn, Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion . 2010,第6期

機譯：轉移印刷在柔性基板上的透明銅納米線網狀電極及其在有機太陽能電池中的應用
4. Semi Transparent Electrode of Au nano mesh on Flexible Substrates Fabricated by Transfer Printing Using Self-Organized Porous Polymer Mold [C] . Yuichiro Yanagi, Hirofumi Saito, Shunjiro Fujii, Photovoltaics for the 21st century 9 . 2013

機譯：使用自組織多孔聚合物模具通過轉移印刷在柔性基板上制備金納米網的半透明電極
5. Organic electronics with polymer dielectrics on plastic substrates fabricated via transfer printing [D] . Hines, Daniel R. 2007

機譯：具有聚合物電介質的有機電子器件在通過轉印印刷制造的塑料基材上
6. Flexible transparent patterned electrodes based on graphene oxide/silver nanowire nanocomposites fabricated utilizing an accelerated ultraviolet/ozone process to control silver nanowire degradation [O] . Dong Chul Choo, Sang Kyung Bae, Tae Whan Kim -1

機譯：基于氧化石墨烯/銀納米線納米復合材料的柔性透明圖案化電極采用加速的紫外線/臭氧工藝控制銀納米線的降解
7. How to achieve sub-cellular-level spatial resolution and sub-spike-level temporal resolution at same time is still a technical challenge in neural mapping while both information are critically important to advance neural science. Here, we present penetrating arrays consisted of single-neuron level transparent microelectrodes with low impedance coating which could realize the high spatial and temporal resolution at the same time. These 32-channel transparent penetrating electrodes with record-small site area, 225 μm2, have a low impedance of ~ 149 kΩ at 1 kHz, an adequate charge injection limit of ± 0.76 mC/cm2, and up to 100 yield. Mechanical bending test result show robust mechanism up to 1000 bending cycles. After a temporary stiffen with polyethylene glycol, this electrode achieved great insertion result without any buckling or deformation. Together these results establish a novel neurotechnology - penetrating arrays of transparent, flexible bilayernanomeshMicroelectrodes which possess great potential for brain research [O] . Zhan Shi -1

機譯：如何在同一時間實現子蜂窩級空間分辨率和子峰值級時間分辨率在神經映射中仍然是技術挑戰，而兩個信息對于推進神經科學來說都很重要。這里，我們提出穿透陣列由單神經元級透明微電極組成，具有低阻抗涂層，其可以同時實現高空間和時間分辨率。這些32通道透明穿透電極具有記錄小的部位面積，225μm2的低阻抗在1 kHz的?149kΩ的低阻抗，充足的電荷注入極限為±0.76mc / cm2，率高達100％。機械彎曲試驗結果顯示高達1000個彎曲循環的強大機制。在用聚乙二醇進行臨時變硬后，該電極實現了很大的插入結果，而無需任何屈曲或變形。這些結果共同建立了一種新型神經技術 - 穿透透明，靈活的雙層圓形脈沖陣列，其具有巨大的大腦研究潛力

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Semi Transparent Electrode of Au nano mesh on Flexible Substrates Fabricated by Transfer Printing Using Self-Organized Porous Polymer Mold

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