Introduction of CAS:1344-67-8 | Cupric chloride
Copper(I) chloride is a chemical compound that is widely used in various scientific research applications. It is an inorganic compound with the chemical formula CuCl, and it is also known as cuprous chloride. Copper(I) chloride is a white to yellowish powder that is insoluble in water but soluble in concentrated hydrochloric acid.
It is used as chemical reagent, mordant, oxidizer, wood preservative, food additive, disinfectant, and for making glass, ceramics, fireworks, hidden ink, and also for deodorizing and desulphurizing petroleum distillate, metal refining, photography, etc.
Specification of CAS:1344-67-8 | Cupric chloride
|
ITEMS |
SPECIFICATION |
|
Melt point |
620 °C(lit.) |
|
Boiling point |
993 °C |
|
Density |
3.386 g/mL at 25 °C(lit.) |
|
Form |
powder |
|
Storage condition |
2-8°C |
Research Application of CAS:1344-67-8 | Cupric chloride
Heritage Metal Conservation: Adriaens & Dowsett (2010) discuss the use of synchrotron-based techniques for corrosion studies on heritage metals, particularly focusing on copper alloys. They emphasize the importance of understanding chemical processes before preservation work on archaeological artifacts, highlighting the effectiveness of treatments for copper(I) chloride layers in conservation efforts (Adriaens & Dowsett, 2010).
Corrosion Mechanisms of Copper in Engineering: Bastidas (2021) explores the corrosion and protection mechanisms of copper in different environments, including its application in climate systems and the impact of chloride on copper corrosion (Bastidas, 2021).
Electrochemistry of Copper Chloride Complexes: Zhao et al. (2013) examine the species distribution of copper chloride complexes in high concentration solutions. Their study is crucial for applications where precise measurement of copper concentration is required, particularly in industrial processes (Zhao et al., 2013).
Copper Chlorides in Bronze Corrosion: Scott (2000) reviews the role of copper chlorides in the corrosion processes of copper alloys and their occurrence as pigments in various paintings. The study provides insights into the reactions involved in 'bronze disease' and emphasizes the significance of copper(I) chloride in these processes (Scott, 2000).
Redox Flow Batteries: Sanz et al. (2013) investigate the Cu(II)/Cu(I) redox couple for Redox Flow Battery applications. They examine the effects of chloride as a complexing agent and its influence on the chemical stability and reversibility of electrochemical reactions in copper chloro-complexes (Sanz et al., 2013).
Copper Catalysis in Organic Chemistry: Xu & Wolf (2009) demonstrate the copper(I)-catalyzed synthesis of primary anilines from aryl halides, including aryl chlorides, using aqueous ammonia. This research highlights the application of copper(I) chloride in organic synthesis, avoiding the need for expensive catalysts and additives (Xu & Wolf, 2009).
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