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Excitatory post-synaptic current and synaptic plasticity of semiconducting polymer/electrolyte system

机译：聚合物/电解质体系的兴奋性突触后电流和突触可塑性

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There are two important resemblances between bio-synapse and semiconducting polymer/electrolyte hetero-junction. The first is that ionic migration at the interface would modulate the ionic movement. The second is in the structure that the ionic channel form in hetero-junction to conduct ion migration. These two aspects suggested the latter could be used in simulating synaptic plasticity. Therefore, we adopted conventional measurement method used in neuroscience studying synaptic plasticity. We have successfully mimicked frequency selectivity using Pt/P3HT/PEO+Li+/Pt cell, which responded in depression at LFS and in potentiation at HFS. The ionic dynamic was controlled by the ionic type and the interface. Moreover, we have found that long term memory (plasticity) existed in Cs and K doped PEO, which might be used as band-pass filtering.

机译：生物突触和半导体聚合物/电解质异质结之间有两个重要相似之处。首先是界面处的离子迁移会调节离子运动。第二个是在异质结中形成离子通道以进行离子迁移的结构。这两个方面表明后者可用于模拟突触可塑性。因此，我们采用了神经科学中研究突触可塑性的常规测量方法。我们已经成功地模拟了使用Pt / P3HT / PEO + Li + / Pt细胞的频率选择性，该细胞在LFS处的抑郁和HFS处的增强反应。离子动力学受离子类型和界面控制。此外，我们发现在Cs和K掺杂的PEO中存在长期记忆（可塑性），可以用作带通滤波。

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《Non-Volatile Memory Technology Symposium》|2015年|1-4|共4页
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F. Zeng; X J. Li; J. T. Zhang; Y. D. Hu; W. S. Dong; S. H. Lu; A. Liu;
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band-pass filtering; frequency selectivity; hetero-junction; synaptic plasticity;

机译：带通滤波频率选择性异质结突触可塑性;
入库时间 2022-08-26 15:22:57

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专利

1. Excitatory Post-Synaptic Potential Mimicked in Indium-Zinc-Oxide Synaptic Transistors Gated by Methyl Cellulose Solid Electrolyte [J] . Liqiang Guo, Juan Wen, Jianning Ding, Scientific reports. . 2016,第1期

机译：在由甲基纤维素固体电解质置换的铟 - 氧化锌突触晶体管中模仿的兴奋后突触潜力
2. Diverse Synaptic Plasticity Induced by the Interplay of Ionic Polarization and Doping at Salt-Doped Electrolyte/Semiconducting Polymer Interface [J] . Yuandong Hu, Fei Zeng, Chiating Chang, ACS Omega . 2017,第2期

机译：离子极化和掺杂在盐掺杂的电解质/半导体聚合物界面上相互作用引起的不同突触可塑性
3. Diverse Synaptic Plasticity Induced by the Interplay of Ionic Polarization and Doping at Salt-Doped Electrolyte/Semiconducting Polymer Interface [J] . Yuandong Hu, Fei Zeng, Chiating Chang, ACS Omega . 2017,第2期

机译：离子极化和掺杂在盐掺杂的电解质/半导体聚合物界面上相互作用引起的不同突触可塑性
4. Excitatory post-synaptic current and synaptic plasticity of semiconducting polymer/electrolyte system [C] . F. Zeng, X J. Li, J. T. Zhang, Non-Volatile Memory Technology Symposium . 2015

机译：半导体聚合物/电解质系统的兴奋后突触电流和突触塑性
5. Synaptic Plasticity and Excitatory-Inhibitory Balance in the Auditory Cortex. [D] . D'Amour, James Arthur. 2016

机译：听觉皮层中的突触可塑性和兴奋抑制性平衡。
6. Diverse Synaptic Plasticity Induced by the Interplayof Ionic Polarization and Doping at Salt-Doped Electrolyte/Semiconducting Polymer Interface [O] . Yuandong Hu, Fei Zeng, *, 2017

机译：相互作用引起的多种突触可塑性盐电解质/半导体聚合物界面的离子极化和掺杂分析
7. Diverse Synaptic Plasticity Induced by the Interplay of Ionic Polarization and Doping at Salt-Doped Electrolyte/Semiconducting Polymer Interface [O] . Yuandong Hu, Fei Zeng, Chiating Chang, 2017

机译：盐掺杂电解质/半导体聚合物界面中离子极化和掺杂相互作用引起的多种突触可塑性

Excitatory post-synaptic current and synaptic plasticity of semiconducting polymer/electrolyte system

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