Manganese carbonate
Manganese carbonate structure
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Common Name | Manganese carbonate | ||
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| CAS Number | 598-62-9 | Molecular Weight | 114.947 | |
| Density | 3.12 g/mL at 25 °C(lit.) | Boiling Point | 333.6ºC at 760 mmHg | |
| Molecular Formula | CMnO3 | Melting Point | 350°C (dec.) | |
| MSDS | Chinese USA | Flash Point | 169.8ºC | |
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Template-assisted assembly of the functionalized cubic and spherical microparticles.
Langmuir 28(37) , 13345-53, (2012) The patterned template-assisted assembly of the cubic microparticles driven by the competing capillary, Columbic, and van der Waals forces had been studied in comparison with the traditional spherical colloidal microparticles. We observed that the spherical a... |
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Manganese sulfide formation via concomitant microbial manganese oxide and thiosulfate reduction.
Environ. Microbiol. 13(12) , 3275-88, (2011) The dissimilatory metal-reducing bacterium, Shewanella oneidensis MR-1 produced γ-MnS (rambergite) nanoparticles during the concurrent reduction of MnO₂ and thiosulfate coupled to H₂ oxidation. To investigate effect of direct microbial reduction of MnO₂ on Mn... |
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Subcellular and gel chromatographic distribution of manganese in the mouse brain: relation to the chemical form of chronically-ingested manganese.
Toxicol. Lett. 66(3) , 287-94, (1993) The subcellular distribution of manganese and the binding characteristics of manganese to protein in the mouse brain were examined on G-75 Sephadex gel columns. Four manganese compounds were included at 2 g/kg in each food eaten by ddY mice for 12 months. The... |
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Preclinical evaluation of manganese carbonate particles for magnetic resonance imaging of the liver.
Acad. Radiol. 2(2) , 140-7, (1995) We characterized the physical, biological, and imaging properties of a manganese (Mn) carbonate particle suspension, a contrast agent for hepatic magnetic resonance (MR) imaging.Mn carbonate suspensions were produced by controlled precipitation and characteri... |
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Biomimetic synthesis of metal ion-doped hierarchical crystals using a gel matrix: formation of cobalt-doped LiMn(2)O(4) with improved electrochemical properties through a cobalt-doped MnCO(3) precursor.
Chem. Asian J. 5(4) , 792-8, (2010) We have synthesized spinel type cobalt-doped LiMn(2)O(4) (LiMn(2-y)Co(y)O(4), 0 |
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Microemulsion-mediated solvothermal synthesis and morphological evolution of MnCO3 nanocrystals.
J. Nanosci. Nanotechnol. 6(7) , 2123-8, (2006) The morphology- and size-controlled synthesis of MnCO3 nanocrystals was successfully achieved by cationic surfactant-CTAB-microemulsion-mediated solvothermal method. Various comparison experiments with different reactant concentrations and molar ratios betwee... |
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Adsorption of arsenite and selenite using an inorganic ion exchanger based on Fe–Mn hydrous oxide
J. Colloid. Interface Sci. 365(1) , 213-21, (2012) Graphical abstract |
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Changes in the redox potential and catalase activity of Mn2+ ions during formation of Mn-bicarbonate complexes.
Membr. Cell Biol. 11(1) , 115-20, (1997) Changes in the redox potentials of Mn2+ ions and Mn-bicarbonate complexes were studied due to their possible participation in the photosynthetic oxidation of water in plant photosystem 2 and in H2O2 decomposition. Electrochemical oxidation of Mn2+ ions was de... |
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Biologically relevant mechanism for catalytic superoxide removal by simple manganese compounds.
Proc. Natl. Acad. Sci. U. S. A. 109(18) , 6892-7, (2012) Nonenzymatic manganese was first shown to provide protection against superoxide toxicity in vivo in 1981, but the chemical mechanism responsible for this protection subsequently became controversial due to conflicting reports concerning the ability of Mn to c... |
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Sonogashira and "Click" reactions for the N-terminal and side-chain functionalization of peptides with [Mn(CO)3(tpm)]+-based CO releasing molecules (tpm = tris(pyrazolyl)methane).
Dalton Trans. (22) , 4292-8, (2009) A recently identified photoactivatable CO releasing molecule (CORM) based on [Mn(CO)(3)(tpm)](+) was conjugated to functionalized amino acids and model peptides using the Pd-catalyzed Sonogashira cross-coupling and the alkyne-azide 1,3-dipolar cycloaddition (... |