The photolysis of barium and Strontium azide (cas 19465-89-5)s
-
Add time:08/21/2019 Source:sciencedirect.com
The effect of very high intensity UV light on powdered barium and strontium azides in vacuo in the temperature ranges −70° to 100°, and −80° to 90°, has been studied. The photolytic decompositions were characterized by a high percentage decomposition and sigmoid pressure vs time plots similar to those obtained by thermal decomposition. Kinetic analysis, the determination of activation energies, studies of the dependence of reaction rates on light intensity, and the effect of water vapour, were carried out. Mechanisms for decomposition over well defined temperature ranges are proposed.
We also recommend Trading Suppliers and Manufacturers of Strontium azide (cas 19465-89-5). Pls Click Website Link as below: cas 19465-89-5 suppliers
Prev:Electronic structure and optical properties of crystalline Strontium azide (cas 19465-89-5) and barium azide by ab initio pseudopotential plane-wave calculations
Next:The coirradiated decomposition of barium and Strontium azide (cas 19465-89-5)s) - 【Back】【Close 】【Print】【Add to favorite 】
- Related Information
- Manganese-calcium/strontium heterometallic compounds and their relevance for the oxygen-evolving center of photosystem II08/29/2019
- Use of strontium for bovine oocyte activation08/28/2019
- Chapter 11 Decomposition of azides08/27/2019
- Short communicationPreclinical evaluation of strontium-containing bioactive bone cement08/26/2019
- Osteogenic, anti-osteoclastogenic and immunomodulatory properties of a strontium-releasing hybrid scaffold for bone repair08/25/2019
- Strontium effects on root dentin tubule occlusion and nanomechanical properties08/24/2019
- The thermal stability of γ-irradiated Strontium azide (cas 19465-89-5)08/23/2019
- The coirradiated decomposition of barium and Strontium azide (cas 19465-89-5)s08/22/2019
- Electronic structure and optical properties of crystalline Strontium azide (cas 19465-89-5) and barium azide by ab initio pseudopotential plane-wave calculations08/20/2019
-
Health and Chemical more >