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Mn3+
Known as:
Manganese 3+
, Mn(III)
Manganese ion requiring three electrons to return to its elemental state.
National Institutes of Health
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Papers overview
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Highly Cited
2018
Highly Cited
2018
Effect of MnO2 Phase Structure on the Oxidative Reactivity toward Bisphenol A Degradation.
Jianzhi Huang
,
Shifa Zhong
,
Yifan Dai
,
C. Liu
,
Huichun Zhang
Environmental Science and Technology
2018
Corpus ID: 52167362
Manganese dioxides (MnO2) are among important environmental oxidants in contaminant removal; however, most existing work has only…
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Highly Cited
2014
Highly Cited
2014
Respective role of Fe and Mn oxide contents for arsenic sorption in iron and manganese binary oxide: an X-ray absorption spectroscopy investigation.
Gaosheng Zhang
,
Fudong Liu
,
Huijuan Liu
,
J. Qu
,
Ruiping Liu
Environmental Science and Technology
2014
Corpus ID: 12834173
In our previous studies, a synthesized Fe-Mn binary oxide was found to be very effective for both As(V) and As(III) removal in…
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Highly Cited
2013
Highly Cited
2013
Abundant Porewater Mn(III) Is a Major Component of the Sedimentary Redox System
A. Madison
,
B. Tebo
,
A. Mucci
,
B. Sundby
,
G. Luther
Science
2013
Corpus ID: 31150298
Mn at Work Biogeochemical cycling involves oxidation-reduction reactions with common metals like iron and manganese. Depending on…
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Highly Cited
2011
Highly Cited
2011
Effect of Ca2+/Sr2+ substitution on the electronic structure of the oxygen-evolving complex of photosystem II: a combined multifrequency EPR, 55Mn-ENDOR, and DFT study of the S2 state.
N. Cox
,
L. Rapatskiy
,
+11 authors
J. Messinger
Journal of the American Chemical Society
2011
Corpus ID: 207062335
The electronic structures of the native Mn(4)O(x)Ca cluster and the biosynthetically substituted Mn(4)O(x)Sr cluster of the…
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Review
2009
Review
2009
Structure and Action Mechanism of Ligninolytic Enzymes
D. Wong
Applied Biochemistry and Biotechnology
2009
Corpus ID: 35495715
Lignin is the most abundant renewable source of aromatic polymer in nature, and its decomposition is indispensable for carbon…
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Highly Cited
2009
Highly Cited
2009
Quantum chemical study of arsenic (III, V) adsorption on Mn-oxides: implications for arsenic(III) oxidation.
M. Zhu
,
K. W. Paul
,
J. Kubicki
,
D. Sparks
Environmental Science and Technology
2009
Corpus ID: 23956833
Density functional theory (DFT) calculations were used to investigate As(V) and As(III) surface complex structures and reaction…
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Highly Cited
2006
Highly Cited
2006
Soluble Mn(III) in Suboxic Zones
Robert E. Trouwborst
,
B. Clement
,
B. Tebo
,
B. Glazer
,
G. Luther
Science
2006
Corpus ID: 38742868
Soluble manganese(III) [Mn(III)] has been thought to disproportionate to soluble Mn(II) and particulate MnIVO2 in natural waters…
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Highly Cited
2005
Highly Cited
2005
Evidence for the presence of Mn(III) intermediates in the bacterial oxidation of Mn(II).
S. Webb
,
G. Dick
,
J. Bargar
,
B. Tebo
Proceedings of the National Academy of Sciences…
2005
Corpus ID: 1425257
Bacterial oxidation of Mn(II) to Mn(IV) is believed to drive the oxidative segment of the global biogeochemical Mn cycle and…
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Highly Cited
2004
Highly Cited
2004
Raising the spin-reversal barrier in cyano-bridged single-molecule magnets: linear Mn(III)(2)M(III)(CN)(6) (M = Cr, Fe) species incorporating [(5-Brsalen)Mn](+) units.
H. Choi
,
J. J. Sokol
,
J. Long
Inorganic Chemistry
2004
Corpus ID: 19198644
Reactions between K(3)[M(CN)(6)] and [Mn(5-Brsalen)(H(2)O)(2)](+) (5-Brsalen = N,N'-ethylenebis(5-bromosalicylidene)aminato…
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Highly Cited
1998
Highly Cited
1998
Cell-permeable scavengers of superoxide prevent long-term potentiation in hippocampal area CA1.
Eric Klann
Journal of Neurophysiology
1998
Corpus ID: 18913861
Long-term potentiation (LTP) in hippocampal area CA1 is generally dependent on N-methyl--aspartate (NMDA) receptor activation…
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