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Manganese(II,III) oxide


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4.8 g/mL at 25 °C (lit.)


battery manufacturing

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General description

Manganese(II,III) oxide is a transition metal oxide that is formed by annealing manganese oxide in the air above 1000°C. It can be used for a variety of applications such as catalysis, electrochromic devices, and other energy storage applications.


100 g in poly bottle

Storage Class Code

13 - Non Combustible Solids



Flash Point(F)

Not applicable

Flash Point(C)

Not applicable

Personal Protective Equipment

dust mask type N95 (US), Eyeshields, Gloves

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Quotes and Ordering

Yueming Tan et al.
ACS applied materials & interfaces, 5(6), 2241-2248 (2013-02-22)
Synthesis of nitrogen-doped carbons with large surface area, high conductivity, and suitable pore size distribution is highly desirable for high-performance supercapacitor applications. Here, we report a novel protocol for template synthesis of ultrathin nitrogen-doped graphitic carbon nanocages (CNCs) derived from
N V Zaĭtseva et al.
Vestnik Rossiiskoi akademii meditsinskikh nauk, (2)(2), 18-23 (2013-07-04)
The study of morphological features of tissue organs of experimental animals after a single intragastric administration of an aqueous suspension nanodis-dispersed manganese (III, IV) at doses of 2000, 3500 and 5000 mg/kg showed complex of morphological changes in the form
David M Robinson et al.
Journal of the American Chemical Society, 135(9), 3494-3501 (2013-02-09)
Manganese oxides occur naturally as minerals in at least 30 different crystal structures, providing a rigorous test system to explore the significance of atomic positions on the catalytic efficiency of water oxidation. In this study, we chose to systematically compare
Y Zhang et al.
Journal of hazardous materials, 248-249, 81-88 (2013-01-23)
Several MCM-41 materials were synthesized at different conditions by hydrothermal procedure using cheap and easily available industrial water glass as silica source. Fe doped manganese-based oxide/MCM-41 sorbents were prepared by a sol-gel method. The effects of loadings of metal oxide
Nancy Birkner et al.
Proceedings of the National Academy of Sciences of the United States of America, 110(22), 8801-8806 (2013-05-15)
Previous measurements show that calcium manganese oxide nanoparticles are better water oxidation catalysts than binary manganese oxides (Mn3O4, Mn2O3, and MnO2). The probable reasons for such enhancement involve a combination of factors: The calcium manganese oxide materials have a layered


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