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Nanocarbonsfor Supercapacitors
2012Supercapacitors (or electrochemical capacitors) are electrochemical energy storage devices having higher energy density than dielectric capacitors and higher power density than batteries. Actually, they are capable of delivering large amounts of energy in a very short time. These devices rely mainly on the characteristics of the electrical double layer
François Béguin +1 more
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ECS Meeting Abstracts, 2016
In our studies, gate electrodes were placed in mid-position between the anode and the cathode of electrolytic capacitors. Ionic currents were made to flow through these gate electrodes. The gate was an electronic p-n junction and consisted of p-type and n-type functionalized carbon nanotubes (CNT).
Tazima Chowdhury, Haim Grebel
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In our studies, gate electrodes were placed in mid-position between the anode and the cathode of electrolytic capacitors. Ionic currents were made to flow through these gate electrodes. The gate was an electronic p-n junction and consisted of p-type and n-type functionalized carbon nanotubes (CNT).
Tazima Chowdhury, Haim Grebel
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Polydiacetylene–Perylenediimide Supercapacitors
ChemSusChem, 2020AbstractOrganic supercapacitors have attracted interest as promising “green” and efficient components in energy storage applications. A polydiacetylene derivative coupled with reduced graphene oxide was employed, for the first time, to generate an organic pseudocapacitance‐based supercapacitor that exhibited excellent electrochemical properties ...
Amrita De Adhikari +4 more
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Doped graphene supercapacitors
Nanotechnology, 2015Heteroatom-doped graphitic frameworks have received great attention in energy research, since doping endows graphitic structures with a wide spectrum of properties, especially critical for electrochemical supercapacitors, which tend to complement or compete with the current lithium-ion battery technology/devices.
Kumar, Nanjundan Ashok, Baek, Jong-Beom
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Synthetic Biopigment Supercapacitors
ACS Applied Materials & Interfaces, 2019Biomass-based energy storage devices have drawn increasing attention owing to their renewability and sustainability, particularly that the heteroatom-doped carbons derived from natural polymers are regarded as the promising candidates in discovering advanced electrode materials for supercapacitors.
Lei Yang +9 more
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2013
GENERAL PRINCIPLES OF ELECTROCHEMISTRY Equilibrium Electrochemistry Ionics Dynamic Electrochemistry GENERAL PROPERTIES OF ELECTROCHEMICAL CAPACITORS Introduction Capacitor Principles Electrochemical Capacitors Summary ELECTROCHEMICAL TECHNIQUES Electrochemical Apparatus Electrochemical Cell Electrochemical Interface: Supercapacitors Most Used ...
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GENERAL PRINCIPLES OF ELECTROCHEMISTRY Equilibrium Electrochemistry Ionics Dynamic Electrochemistry GENERAL PROPERTIES OF ELECTROCHEMICAL CAPACITORS Introduction Capacitor Principles Electrochemical Capacitors Summary ELECTROCHEMICAL TECHNIQUES Electrochemical Apparatus Electrochemical Cell Electrochemical Interface: Supercapacitors Most Used ...
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Smart, Stretchable Supercapacitors
Advanced Materials, 2014Smart supercapacitors are developed by depositing conducting polymers onto aligned carbon-nanotube sheets. These supercapacitors rapidly and reversibly demonstrate color changes in response to a variation in the level of stored energy and the chromatic transitions can be directly observed by the naked eye.
Xuli, Chen +5 more
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A New View of Supercapacitors: Integrated Supercapacitors
Advanced Energy Materials, 2019AbstractCharging times ranging from seconds to minutes with high power densities can be achieved by electrochemical capacitors in principle. Over the past few decades, the performance of supercapacitors has been greatly improved by the utilization of new materials, preparation of unique nanostructures, investigation of electrolytes, and so on. However,
Qiancheng Zhu +6 more
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2021
Innovative and interdisciplinary solutions to wearable textile energy storage are explored as power sources for wearable electronics and smart textiles. Due to their long cycle life, non-toxic and inexpensive materials, supercapacitors were converted into textiles.
Kristy Alana Jost, Yury Gogotsi
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Innovative and interdisciplinary solutions to wearable textile energy storage are explored as power sources for wearable electronics and smart textiles. Due to their long cycle life, non-toxic and inexpensive materials, supercapacitors were converted into textiles.
Kristy Alana Jost, Yury Gogotsi
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