Add to ORKGThe research discussed is divided into two parts. The first part discusses the background work involved in preparation of the Li-ion cell testing stage. This includes the preparation of anodes using the doctor blade and a calendar mill, electrolyte preparation, test cell assembly, the Li-ion test cell design, and experiments performed to troubleshoot the cell. The second part deals with the cell testing experiments. Li-ion batteries are amongst the most promising rechargeable battery technology because of their high capacity and low weight. Current research aims at improving the anode quality to increase the capacity. The experiments discussed evaluate the traditional anode materials like SFG44 graphite and conducting grade graphite against...
The continuous development of electronic technology promote the development of a variety of electron...
This report is concerned with the testing and evaluation of various battery chemistries for use in P...
This paper presents a benchmarking model to enable systematic selection of anode and cathode materia...
For physicochemical modelling of lithium ion batteries, an extensive parametrization is necessary. T...
This research was focused on testing Lithium ion battery at different temperature using Silicon as t...
Lithium-ion (Li-ion) batteries are essential for everyday life as power sources for laptop and table...
Coin cells with lithium and graphite electrodes were assembled using different combinations of graph...
First commercialized lithium ion cell was used for camcorder by Sony in 1991. After that, applicatio...
In the early 1970s, research carried out on rechargeable lithium batteries at the Exxon Laboratories...
Next generation rechargeable lithium metal battery chemistries have the potential to revolutionize e...
Due to their high energy density and cell voltage lithium ion cells play a major role in the recharg...
As of late, there has been an increasing interest in research to characterize and develop a new gene...
The relevance of lithium ion batteries has increased with the growth of the electric vehicle (EV) in...
Research activities related to the development of negative electrodes for construction of high-perfo...
The Battery Technology Department at Argonne National Laboratory is a major participant in the U.S. ...
The continuous development of electronic technology promote the development of a variety of electron...
This report is concerned with the testing and evaluation of various battery chemistries for use in P...
This paper presents a benchmarking model to enable systematic selection of anode and cathode materia...
For physicochemical modelling of lithium ion batteries, an extensive parametrization is necessary. T...
This research was focused on testing Lithium ion battery at different temperature using Silicon as t...
Lithium-ion (Li-ion) batteries are essential for everyday life as power sources for laptop and table...
Coin cells with lithium and graphite electrodes were assembled using different combinations of graph...
First commercialized lithium ion cell was used for camcorder by Sony in 1991. After that, applicatio...
In the early 1970s, research carried out on rechargeable lithium batteries at the Exxon Laboratories...
Next generation rechargeable lithium metal battery chemistries have the potential to revolutionize e...
Due to their high energy density and cell voltage lithium ion cells play a major role in the recharg...
As of late, there has been an increasing interest in research to characterize and develop a new gene...
The relevance of lithium ion batteries has increased with the growth of the electric vehicle (EV) in...
Research activities related to the development of negative electrodes for construction of high-perfo...
The Battery Technology Department at Argonne National Laboratory is a major participant in the U.S. ...
The continuous development of electronic technology promote the development of a variety of electron...
This report is concerned with the testing and evaluation of various battery chemistries for use in P...
This paper presents a benchmarking model to enable systematic selection of anode and cathode materia...