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Use of Lithium Copper(I) Oxide and Copper(II) Oxide as a Electrodes in Lithium Battery.

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Use of Lithium Copper(I) Oxide and Copper(II) Oxide as a Electrodes in Lithium Battery./
作者:	Kundur, Sreelaxmi.
面頁冊數:	1 online resource (38 pages)
附註:	Source: Masters Abstracts International, Volume: 83-04.
Contained By:	Masters Abstracts International83-04.
標題:	Chemistry. -
電子資源:	http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=28849628click for full text (PQDT)
ISBN:	9798460499977

Use of Lithium Copper(I) Oxide and Copper(II) Oxide as a Electrodes in Lithium Battery.
Kundur, Sreelaxmi.

Use of Lithium Copper(I) Oxide and Copper(II) Oxide as a Electrodes in Lithium Battery. - 1 online resource (38 pages)

Source: Masters Abstracts International, Volume: 83-04.

Thesis (M.S.)--Long Island University, The Brooklyn Center, 2020.

Includes bibliographical references

Lithiated Copper (I) oxide could be a key component for the efficient functioning of the lithium-ion batteries. In this thesis, we analyze this case and describe other aspects associated with the LiCuO/CuO system in the lithium-ion batteries. The scope of my research is to describe the general properties of Copper oxides and the general application aspects into the lithium-ion batteries. Copper is a transition metal that when charged, it takes the charge +1 or +2. Copper has a +1 charge in LiCuO and a +2 charge in CuO. Therefore, the LiCuO - CuO transition, as well as the CuO-LiCuO transition are both possible, and can be achieved by moving the Li-ion back and forth from one to the other. This is what exactly takes place in a rechargeable lithium ion battery. In this case, I have presented different descriptions on the building up of Copper (II) oxide and other related approaches. I have also described the various ideals behind the application of Lithium Copper(I) oxide and Copper (II) oxide in the lithium-ion batteries. Another point of concern in this paper is to highlight the difference between the lithium-ion batteries and the lithium metal anode batteries. The physical and chemical properties behind the application of Lithium Copper(I) oxide/Copper (II) oxide in the lithium-ion batteries are also analyzed in this thesis. Within the context of this paper, I have attended to the properties of lithium-ion batteries in terms of their ability to recharge and their preferences over other similar electrical energy sources. Based on the scope of my research, I was also able to analyze the various principles behind the application approach of copper oxides in the lithium-ion batteries. The chemistry of Copper (II) oxide as well as the movement of Lithium ions through the lithium ion batteries. Based on the research study I applied for this case, I was able to come up with the benefits associated with the use of Copper oxides in the lithium-ion batteries and consequently analyze the defects associated in the same application.

Electronic reproduction.
Ann Arbor, Mich. :
ProQuest,
2023

Mode of access: World Wide Web

ISBN: 9798460499977Subjects--Topical Terms:

516420
Chemistry.
Subjects--Index Terms:

Copper(II) OxideIndex Terms--Genre/Form:

542853
Electronic books.

Use of Lithium Copper(I) Oxide and Copper(II) Oxide as a Electrodes in Lithium Battery.
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520 $a Lithiated Copper (I) oxide could be a key component for the efficient functioning of the lithium-ion batteries. In this thesis, we analyze this case and describe other aspects associated with the LiCuO/CuO system in the lithium-ion batteries. The scope of my research is to describe the general properties of Copper oxides and the general application aspects into the lithium-ion batteries. Copper is a transition metal that when charged, it takes the charge +1 or +2. Copper has a +1 charge in LiCuO and a +2 charge in CuO. Therefore, the LiCuO - CuO transition, as well as the CuO-LiCuO transition are both possible, and can be achieved by moving the Li-ion back and forth from one to the other. This is what exactly takes place in a rechargeable lithium ion battery. In this case, I have presented different descriptions on the building up of Copper (II) oxide and other related approaches. I have also described the various ideals behind the application of Lithium Copper(I) oxide and Copper (II) oxide in the lithium-ion batteries. Another point of concern in this paper is to highlight the difference between the lithium-ion batteries and the lithium metal anode batteries. The physical and chemical properties behind the application of Lithium Copper(I) oxide/Copper (II) oxide in the lithium-ion batteries are also analyzed in this thesis. Within the context of this paper, I have attended to the properties of lithium-ion batteries in terms of their ability to recharge and their preferences over other similar electrical energy sources. Based on the scope of my research, I was also able to analyze the various principles behind the application approach of copper oxides in the lithium-ion batteries. The chemistry of Copper (II) oxide as well as the movement of Lithium ions through the lithium ion batteries. Based on the research study I applied for this case, I was able to come up with the benefits associated with the use of Copper oxides in the lithium-ion batteries and consequently analyze the defects associated in the same application.
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