The impact of milling time and rotation speed on Li-NMC cathode performance

The Impact of Milling Time and Rotation Speed on Li-NMC Cathode Performance. Technological developments of electrical energy storage on this era are batteries. Many electronic devices using battery for energy storage, so the batteries in the future will be a strategic and economical source of energy...

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Hauptverfasser:	Mawaddah, Fajrul, Kartini, Evvy, Puspita, Rizka Ayu, Fakhrudin, Muhammad, Sudjatno, Agus
Format:	Tagungsbericht
Sprache:	eng
Schlagworte:	Cathodes Chemical analysis Comminution Electrochemical analysis Electronic devices Electrons Energy sources Energy storage Lithium-ion batteries Particle size Rechargeable batteries Rotation
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creator	Mawaddah, Fajrul Kartini, Evvy Puspita, Rizka Ayu Fakhrudin, Muhammad Sudjatno, Agus
description	The Impact of Milling Time and Rotation Speed on Li-NMC Cathode Performance. Technological developments of electrical energy storage on this era are batteries. Many electronic devices using battery for energy storage, so the batteries in the future will be a strategic and economical source of energy storage. Li-ion battery comprises of anode, cathode and separator. The cathode is fully functional in the process of transferring lithium ions, during the charging and discharging processes. The particle size has a significant part within the electrochemical performance of the cathode for Li-ion battery. Milling could be a way to decrease particle size and improve electrochemical performance. Milling is a method that use the collision energy between grinding balls and the walls of the container (jar milling). X- rays characteristics are analytical signals that used in electron microscopy for chemical analysis. The results showed that longer milling time and a faster rotation speed, will give smaller size which increased the electrochemical performance of the battery cathode.
doi_str_mv	10.1063/5.0121091
format	Conference Proceeding
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Technological developments of electrical energy storage on this era are batteries. Many electronic devices using battery for energy storage, so the batteries in the future will be a strategic and economical source of energy storage. Li-ion battery comprises of anode, cathode and separator. The cathode is fully functional in the process of transferring lithium ions, during the charging and discharging processes. The particle size has a significant part within the electrochemical performance of the cathode for Li-ion battery. Milling could be a way to decrease particle size and improve electrochemical performance. Milling is a method that use the collision energy between grinding balls and the walls of the container (jar milling). X- rays characteristics are analytical signals that used in electron microscopy for chemical analysis. 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source	AIP Journals Complete
subjects	Cathodes Chemical analysis Comminution Electrochemical analysis Electronic devices Electrons Energy sources Energy storage Lithium-ion batteries Particle size Rechargeable batteries Rotation
title	The impact of milling time and rotation speed on Li-NMC cathode performance
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