Formation of nano-crystalline todorokite from biogenic Mn oxides

Todorokite, as one of three main Mn oxide phases present in oceanic Mn nodules and an active MnO 6 octahedral molecular sieve (OMS), has garnered much interest; however, its formation pathway in natural systems is not fully understood. Todorokite is widely considered to form from layer structured Mn...

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Bibliographic Details
Published in:Geochimica et cosmochimica acta 2010-06, Vol.74 (11), p.3232-3245
Main Authors: Feng, Xiong Han, Zhu, Mengqiang, Ginder-Vogel, Matthew, Ni, Chaoying, Parikh, Sanjai J., Sparks, Donald L.
Format: Article
Language:English
Subjects:
ATMOSPHERIC PRESSURE
BIOSYNTHESIS
GEOSCIENCES
Manganese
MOLECULAR SIEVES
Nanocrystals
Nanostructure
national synchrotron light source
ORIGIN
Origins
OXIDES
PERIODICITY
Phases
PRECURSOR
PSEUDOMONAS
REFLECTION
STRAINS
SYMMETRY
TRANSFORMATIONS
X-RAY DIFFRACTION
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Summary:Todorokite, as one of three main Mn oxide phases present in oceanic Mn nodules and an active MnO 6 octahedral molecular sieve (OMS), has garnered much interest; however, its formation pathway in natural systems is not fully understood. Todorokite is widely considered to form from layer structured Mn oxides with hexagonal symmetry, such as vernadite (δ-MnO 2), which are generally of biogenic origin. However, this geochemical process has not been documented in the environment or demonstrated in the laboratory, except for precursor phases with triclinic symmetry. Here we report on the formation of a nanoscale, todorokite-like phase from biogenic Mn oxides produced by the freshwater bacterium Pseudomonas putida strain GB-1. At long- and short-range structural scales biogenic Mn oxides were transformed to a todorokite-like phase at atmospheric pressure through refluxing. Topotactic transformation was observed during the transformation. Furthermore, the todorokite-like phases formed via refluxing had thin layers along the c ∗ axis and a lack of c ∗ periodicity, making the basal plane undetectable with X-ray diffraction reflection. The proposed pathway of the todorokite-like phase formation is proposed as: hexagonal biogenic Mn oxide → 10-Å triclinic phyllomanganate → todorokite. These observations provide evidence supporting the possible bio-related origin of natural todorokites and provide important clues for understanding the transformation of biogenic Mn oxides to other Mn oxides in the environment. Additionally this method may be a viable biosynthesis route for porous, nano-crystalline OMS materials for use in practical applications.
ISSN:0016-7037
1872-9533
DOI:10.1016/j.gca.2010.03.005