有谁做过钴酸锂的热分析吗

应助达人

找了两篇文献,希望对你有用.感觉还是与样品有关.可以用20度/min扫一下样品量先多一点.

应助达人

你是想了解它与氧气反应的情况,还是了解其自身的分解特性呢?如果是后者,最好用氮气或氩气.

我想了解他与氧气反应的DSC和TG曲线，用氮气我做过，做到800度都没反应，结果我用空气气氛做到1400度出现了两个吸热峰

应助达人

参考一下这篇文章，我感觉DTA的结果与样品的制备有关系。
Thermochimica Acta
Volume 480, Issues 1-2, 15 December 2008, Pages 15-21
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The thermal stability of fully charged and discharged LiCoO2 cathode and graphite anode in nitrogen and air atmospheres
Yan-Bing Hea, , , Zhi-Yuan Tanga, Quan-Sheng Songa, Hui Xiea, Qiang Xua, Yuan-Gang Liub and Guo-Wei Linga

aDepartment of Applied Chemistry, School of Chemical Engineering and Technology, Tianjin University, Tianjin 300072, China

bMcNair Technology Co., Ltd., Dongguan City, Guangdong 523700, China

Received 17 April 2008; revised 22 September 2008; accepted 23 September 2008. Available online 1 October 2008.

Abstract
The thermogravimetric (TG) and differential thermal analysis (DTA) were used to investigate the thermal stability of fully charged and discharged LiCoO2 cathode and graphite anode in nitrogen and air atmospheres. The results showed that the weight of charged and discharged LiCoO2 cathode samples exhibited an obvious decrease between 100 and 120 °C in two atmospheres. The exothermic decomposition reaction of fully charged LiCoO2 cathode occurred at 250 °C in two atmospheres. A small decomposition reaction of the discharged LiCoO2 cathode occurred at 300 °C. When the temperature of samples was elevated to 600 °C, the weight of fully charged and discharged LiCoO2 cathode in air atmosphere did not change; while the weight of samples in nitrogen atmosphere decreased. This was because the Co3O4 as the decomposition product of the cathodes could be reduced to CoO by the carbon black above 600 °C in N2 atmosphere. The solid electrolyte interphase (SEI) film of fully charged and discharged graphite anode was decomposed at 100–120 °C in two atmospheres, and the weight loss of fully charged graphite anode at 100–120 °C was obviously less than that of the fully discharged graphite anode. When the samples were heated to 300 °C, there was no fierce exothermic reaction for the lithiated graphite anode in N2 atmosphere, whereas an exothermic reaction in air atmosphere occurred rapidly.