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Binderless Composite Electrode Monolith from Carbon Nanotube and Biomass Carbon Activated by KOH and CO_2 Gas for Supercapacitor

机译：来自碳纳米管的合成粘合剂复合电极含量和由KOH和CO_2气体激活的碳纳米管和生物质碳进行超级电容器

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This paper presents a method to improve the performance of supercapacitors fabricated using binderless composite electrode monolith (BCMs) from self‐adhesive carbon grains (SACG) of fibers from oil palm empty fruit bunches. The BCMs were prepared from green monoliths (GMs) contain SACG, SACG treated with KOH (5 % by weight) and SACG mixed with carbon nanotubes (CNTs) (5% by weight) and KOH (5 % by weight), respectively. These GMs were carbonized at 800?°C under N_2 environment and activated by CO_2 gas at 800?°C for 1 hour. It was found that addition of KOH and CNTs produced BCMs with higher specific capacitance and smaller internal resistance, respectively. It was also found that supercapacitor cells using these BCMs as electrodes exhibited a better specific energy and specific power. The physical properties of BCMs (density, electrical conductivity, porosity, interlayer spacing, crystallite dimension and microstructure) were affected by the addition of KOH and CNTs.

机译：本文提出了一种方法，提高使用来自油棕空果实束的自粘碳颗粒（SACG）使用粘合剂复合电极整体（BCM）制造的超级电容器性能的方法。从绿色整体溶液（GMS）中制备BCM，含有SACG，用KOH（5重量％）和与碳纳米管（CNT）（5重量％）和KOH（5重量％）混合的SACG处理SACG。将这些GMS在N_2环境下在800℃下碳化，并通过800Ω·℃的CO_2气体激活1小时。结果发现，加入KOH和CNT，分别产生具有更高比电容和更小的内阻的BCM。还发现，作为电极的使用这些BCM的超级电容器细胞表现出更好的特定能量和特定功率。通过加入KOH和CNT来影响BCMS（密度，导电性，孔隙率，层间间隔，微晶尺寸和微观结构）的物理性质。

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《Nanoscience and Nanotechnology Symposium》|2011年||共5页
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作者
R. Farma; M. Deraman; R. Omar; Awitdrus; M. M. Ishak; E. Taer; I. A. Talib;
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原文格式 PDF
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中图分类 TB383-532;
关键词
BCMs; SACG; CNTs; BET surface area; supercapacitor; electrochemical properties;

机译：BCMS;SACG;CNT;BET表面积;超级电容器;电化学性质;

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专利

1. Supercapacitors using binderless composite monolith electrodes from carbon nanotubes and pre-carbonized biomass residues [J] . N.H. Basri, M. Deraman, S. Kanwal, Biomass & bioenergy . 2013,第deca期

机译：超级电容器使用碳纳米管和预碳化生物质残渣组成的无粘合剂复合整体电极
2. Supercapacitors using Binderless Activated Carbon Monoliths Electrodes consisting of a Graphite Additive and Pre-carbonized Biomass Fibers [J] . N.S.M. Nor, M. Deraman, M. Suleman, International Journal of Electrochemical Science . 2017,第3期

机译：使用由石墨添加剂和预碳化生物质纤维组成的无粘结剂活性炭整体电极的超级电容器
3. Supercapacitor electrodes from activation of binderless green monoliths of biomass self-adhesive carbon grains composed of varying amount of graphene additive [J] . Jasni M. R. M., Deraman M., Suleman M., Ionics . 2018,第4期

机译：超级电容器电极，由不同量的石墨烯添加剂组成的生物质自粘碳晶粒的活化粘合剂电极
4. Binderless Composite Electrode Monolith from Carbon Nanotube and Biomass Carbon Activated by KOH and CO_2 Gas for Supercapacitor [C] . R. Farma, M. Deraman, R. Omar, Nanoscience and Nanotechnology Symposium . 2011

机译：来自碳纳米管的合成粘合剂复合电极含量和由KOH和CO_2气体激活的碳纳米管和生物质碳进行超级电容器
5. Carbon Nanotube/Manganese Oxide Composite Electrode Materials for Hybrid Supercapacitors and Lithium Ion Battery Anode [D] . Gudavalli, Ganesh Sainadh. 2019

机译：用于杂交超级电容器和锂离子电池阳极的碳纳米管/氧化锰复合电极材料
6. Corrigendum: Nitrogen-doped porous carbon monoliths from polyacrylonitrile (PAN) and carbon nanotubes as electrodes for supercapacitors [O] . Yanqing Wang, Bunshi Fugetsu, Zhipeng Wang, -1

机译：更正：来自聚丙烯腈（PAN）和碳纳米管的氮掺杂多孔碳整体材料作为超级电容器的电极
7. Production of binderless activated carbon monoliths by KOH activation of carbon mesophase materials [O] . Ramos Fernández, José Manuel, Martinez-Escandell, Manuel, Rodríguez Reinoso, Francisco 2008

机译：通过KOH活化碳中间相材料生产无粘结剂活性碳整料

Binderless Composite Electrode Monolith from Carbon Nanotube and Biomass Carbon Activated by KOH and CO_2 Gas for Supercapacitor

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