Printed energy storage devices by integration of electrodes and separators into single sheets of paper

Liangbing Hu; Hui Wu; Yi Cui

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Printed energy storage devices by integration of electrodes and separators into single sheets of paper

机译：通过将电极和隔板集成到单张纸中的印刷储能设备

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We report carbon nanotube thin film-based supercapacitors fabricated with printing methods, where electrodes and separators are integrated into single sheets of commercial paper. Carbon nanotube films are easily printed with Meyer rod coating or ink-jet printing onto a paper substrate due to the excellent ink absorption of paper. A specific capacity of 33 F/g at a high specific power of 250 000 W/kg is achieved with an organic electrolyte. Such a lightweight paper-based supercapacitor could be used to power paper electronics such as transistors or displays.

机译：我们报道了通过印刷方法制造的基于碳纳米管薄膜的超级电容器，其中电极和隔板被集成到单张商业纸中。碳纳米管薄膜很容易通过Meyer棒涂层或喷墨印刷法印刷到纸质基材上，这是由于其对纸张的出色吸墨性。使用有机电解质，在250000 W / kg的高比功率下可获得33 F / g的比容。这样的轻质纸基超级电容器可用于为纸质电子设备（如晶体管或显示器）供电。

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来源
《Applied Physicsletters》 |2010年第18期|183502.1-183502.3|共3页
作者
Liangbing Hu; Hui Wu; Yi Cui;
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作者单位

Department of Materials Science and Engineering, Stanford University, Stanford, California 94305, USA;

Department of Materials Science and Engineering, Stanford University, Stanford, California 94305, USA;

Department of Materials Science and Engineering, Stanford University, Stanford, California 94305, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
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入库时间 2022-08-18 03:18:51

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1. Printed energy storage devices by integration of electrodes and separators into single sheets of paper [J] . Liangbing Hu Hui Wu and Yi Cui Applied Physics Letteres . 2010,第18期

机译：通过将电极和隔板集成到单张纸中的印刷储能设备
2. Energy Storage: Paper-Based Energy-Storage Devices Comprising Carbon Fiber-Reinforced Polypyrrole-Cladophora Nanocellulose Composite Electrodes (Adv. Energy Mater. 4/2012) [J] . Aamir Razaq, Leif Nyholm, Martin SjÖdin, Advanced energy materials . 2012,第4期

机译：能量存储：纸基能量存储设备，其中包括碳纤维增强的聚吡咯-氧化铜纳米纤维素复合电极（Adv。Energy Mater。4/2012）
3. The influence of electrode and separator thickness on the cell resistance of symmetric cellulose-polypyrrole-based electric energy storage devices [J] . Petter Tammela, Henrik Olsson, Maria Stromme, Journal of power sources . 2014,第deca25期

机译：电极和隔板厚度对对称纤维素-聚吡咯基电能存储装置电池电阻的影响
4. Porous Graphene Sheets as Positive Electrode Material for Supercapacitor - Battery Hybrid Energy Storage Devices [C] . Mohanapriya. K, Neetu Jha DAE Solid State Physics Symposium . 2017

机译：多孔石墨烯片作为超级电容器的正极材料 - 电池混合储能装置
5. The Fabrication of Advanced Electrochemical Energy Storage Devices With the Integration of Ordered Nanomaterial Electrodes [D] . Chen, Yu-Ming. 2017

机译：集成有序纳米材料电极的先进电化学储能装置的制造
6. Paper‐Based Electrodes for Flexible Energy Storage Devices [O] . Bin Yao, Jing Zhang, Tianyi Kou, 2017

机译：柔性储能设备用纸基电极
7. 3D Printing of Electrochemical Energy Storage Devices: A Review of Printing Techniques and Electrode/Electrolyte Architectures [O] . Meng Cheng, Ramasubramonian Deivanayagam, Reza Shahbazian‐Yassar 2020

机译：电化学能量存储装置的3D打印：一种综述印刷技术和电极/电解质架构

Printed energy storage devices by integration of electrodes and separators into single sheets of paper

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