Artificial Muscles: Electroionic Antagonistic Muscles Based on Nitrogen-Doped Carbons Derived from Poly(Triazine-Triptycene) (Adv. Sci. 12/2017)

Marta Maria Coelho Damasceno; Jaehwan Kim; Márcio Flávio Moura de Araújo; Caiyun Song; Tianhua He; Jie Li; Xiuqin Ci; Antonio Prestes García; Kwang Jin Kim; Wenfu Zhang; Il-Kwon Oh; Gerdane Celene Nunes Carvalho; Maria Lúcia Zanetti; Wumei Xu; Roberto Wagner Júnior Freire de Freitas; Moumita Kotal; Qiaoming Li; Alfonso Rodríguez-Patón; Sandipan Roy

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Artificial Muscles: Electroionic Antagonistic Muscles Based on Nitrogen-Doped Carbons Derived from Poly(Triazine-Triptycene) (Adv. Sci. 12/2017)

机译：人造肌肉：基于源自聚（三嗪-三萜）的氮掺杂碳的电拮抗肌肉（Adv。Sci。12/2017）

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Abstract Il-Kwon Oh and co-workers develop high-performance electroionic antagonistic muscles based on nitrogen-doped carbons derived from a poly(triazine-triptycene) organic framework. As reported in article number 1700410 , the antagonistic muscles exhibit extremely reliable and large bending actuation performance for long periods under ultralow input voltages due to the outstanding electro-chemomechanical properties of nitrogen-doped carbons. A Dionaea muscipula inspired flower device is successfully demonstrated under the controlled electric signals.

机译：摘要Il-Kwon Oh和他的同事们基于源自聚三嗪-三茂碳有机骨架的氮掺杂碳，开发出高性能的电抗性肌肉。如文章编号1700410中所述，由于氮掺杂碳素具有出色的电化学机械性能，因此拮抗性肌肉在超低输入电压下可长时间显示出极其可靠的弯曲动作性能。在受控的电信号下，成功地证明了一种由狄奥那鞭毛虫启发的花朵装置。

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《Advanced Science》 |2017年第12期|共页
作者
Marta Maria Coelho Damasceno; Jaehwan Kim; Márcio Flávio Moura de Araújo; Caiyun Song; Tianhua He; Jie Li; Xiuqin Ci; Antonio Prestes García; Kwang Jin Kim; Wenfu Zhang; Il-Kwon Oh; Gerdane Celene Nunes Carvalho; Maria Lúcia Zanetti; Wumei Xu; Roberto Wagner Júnior Freire de Freitas; Moumita Kotal; Qiaoming Li; Alfonso Rodríguez-Patón; Sandipan Roy;
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关键词
actuatorartificial musclecovalent organic frameworkhierarchically porous nitrogen doped carbonspecific capacitance;

机译：执行器人工肌肉共价有机骨架分层多孔氮掺杂碳比电容;

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1. Artificial Muscles: Electroionic Antagonistic Muscles Based on Nitrogen-Doped Carbons Derived from Poly(Triazine-Triptycene) (Adv. Sci. 12/2017) [J] . Marta Maria Coelho Damasceno, Jaehwan Kim, Márcio Flávio Moura de Araújo, Advanced Science . 2017,第12期

机译：人造肌肉：基于源自聚（三嗪-三萜）的氮掺杂碳的电拮抗肌肉（Adv。Sci。12/2017）
2. Artificial Muscles: Electroionic Antagonistic Muscles Based on Nitrogen‐Doped Carbons Derived from Poly(Triazine‐Triptycene) (Adv. Sci. 12/2017) [J] . Roy Sandipan, Kim Jaehwan, Kotal Moumita, Advanced materials interfaces . 2017,第12期

机译：人工肌肉：基于聚（三嗪 - 三百合）的氮掺杂碳的电抗拮抗肌肉（ADV。SCI。12/2017）
3. Electroionic Antagonistic Muscles Based on Nitrogen-Doped Carbons Derived from Poly(Triazine-Triptycene) [J] . Yang Chen, Li Yu, Li Gao, Advanced Science . 2017,第12期

机译：基于聚（三嗪三嗪）的氮掺杂碳的电离拮抗肌
4. Novel equilibrium-point control of agonist-antagonist system with pneumatic artificial muscles: II. Application to EMG-based human-machine interface for an elbow-joint system [C] . Ariga, Yohei, Maeda, Daisuke, Pham, Hang T. T., IEEE/RSJ International Conference on Intelligent Robots and Systems;IROS 2012 . 2012

机译：具有气动人工肌肉的激动剂-拮抗剂系统的新型平衡点控制：II。基于EMG的肘关节系统人机界面的应用
5. Fuzzy PWM-PID Control and Shape Memory Alloy Actuator for Cocontracting Antagonistic Muscle Pairs in an Artificial Finger. [D] . Ko, Junghyuk. 2011

机译：模糊PWM-PID控制和形状记忆合金驱动器，用于在人工手指中共同拮抗拮抗肌肉对。
6. Artificial Muscles: Electroionic Antagonistic Muscles Based on Nitrogen‐Doped Carbons Derived from Poly(Triazine‐Triptycene) (Adv. Sci. 12/2017) [O] . Sandipan Roy, Jaehwan Kim, Moumita Kotal, 2017

机译：人造肌肉：基于源自聚三嗪-三萜烯的氮掺杂碳的电拮抗肌（Adv。Sci。12/2017）
7. Electroionic Antagonistic Muscles Based on Nitrogen-Doped Carbons Derived from Poly(Triazine-Triptycene) [O] . Sandipan Roy, Jaehwan Kim, Moumita Kotal, 2017

机译：基于聚（三嗪三嗪）的氮掺杂碳的电离拮抗肌

Artificial Muscles: Electroionic Antagonistic Muscles Based on Nitrogen-Doped Carbons Derived from Poly(Triazine-Triptycene) (Adv. Sci. 12/2017)

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