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birnessite
Known as:
(Na,Ca,K)x(Mn(IV),Mn(III))2O4.1.5H2O
National Institutes of Health
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Related topics
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1 relation
Broader (1)
Oxides
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
Highly Cited
2017
Highly Cited
2017
High‐Performance 2.6 V Aqueous Asymmetric Supercapacitors based on In Situ Formed Na0.5MnO2 Nanosheet Assembled Nanowall Arrays
Nawishta Jabeen
,
A. Hussain
,
Qiuying Xia
,
Shuo Sun
,
Junwu Zhu
,
H. Xia
Advances in Materials
2017
Corpus ID: 205279383
The voltage limit for aqueous asymmetric supercapacitors is usually 2 V, which impedes further improvement in energy density…
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Highly Cited
2015
Highly Cited
2015
Birnessite (δ-MnO2) mediated degradation of organoarsenic feed additive p-arsanilic acid.
Lingling Wang
,
Hefa Cheng
Environmental Science and Technology
2015
Corpus ID: 28793175
p-Arsanilic acid (p-ASA), is a widely used animal feed additive in many developing countries, and is often introduced to…
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Highly Cited
2014
Highly Cited
2014
Tremendous effect of the morphology of birnessite-type manganese oxide nanostructures on catalytic activity.
Jingtao Hou
,
Yuanzhi Li
,
M. Mao
,
L. Ren
,
Xiujian Zhao
ACS Applied Materials and Interfaces
2014
Corpus ID: 1634678
The octahedral layered birnessite-type manganese oxide (OL-1) with the morphologies of nanoflowers, nanowires, and nanosheets…
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Highly Cited
2011
Highly Cited
2011
Reductive transformation of birnessite by aqueous Mn(II).
E. Elzinga
Environmental Science and Technology
2011
Corpus ID: 7013070
Reaction of aqueous Mn(II) with hexagonal birnessite at pH 7.5 causes reductive transformation of birnessite into feitknechtite…
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Highly Cited
2006
Highly Cited
2006
Manganese oxides: parallels between abiotic and biotic structures.
Ian Saratovsky
,
P. Wightman
,
P. Pastén
,
J. Gaillard
,
K. Poeppelmeier
Journal of the American Chemical Society
2006
Corpus ID: 660328
A large number of microorganisms are responsible for the oxidation of Mn(2+)((aq)) to insoluble Mn(3+/4+) oxides (MnO(x)()) in…
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Highly Cited
2005
Highly Cited
2005
Environmental factors determining the trace-level sorption of silver and thallium to soils.
A. Jacobson
,
M. McBride
,
P. Baveye
,
T. Steenhuis
Science of the Total Environment
2005
Corpus ID: 23854168
Highly Cited
2005
Highly Cited
2005
Removal of As(III) and As(V) from water using a natural Fe and Mn enriched sample.
E. Deschamps
,
V. Ciminelli
,
W. Höll
Water Research
2005
Corpus ID: 30105252
Highly Cited
2005
Highly Cited
2005
Zinc stable isotope fractionation during its adsorption on oxides and hydroxides.
O. Pokrovsky
,
J. Viers
,
R. Freydier
Journal of Colloid and Interface Science
2005
Corpus ID: 24652685
Highly Cited
2001
Highly Cited
2001
Sorption of lead ions on diatomite and manganese oxides modified diatomite.
Y. Al-Degs
,
M. Khraisheh
,
M. Tutunji
Water Research
2001
Corpus ID: 45271027
Highly Cited
2001
Highly Cited
2001
Reaction of forest floor organic matter at goethite, birnessite and smectite surfaces
J. Chorover
,
M. K. Amistadi
2001
Corpus ID: 53605856
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