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10-methyl-9,10-dihydroacridine
Known as:
MAH cpd
, N-methyl-9,10-dihydroacridine
National Institutes of Health
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Acridines
Papers overview
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Highly Cited
2017
Highly Cited
2017
Crystallite Size Control of Prussian White Analogues for Nonaqueous Potassium-Ion Batteries
Guang He
,
L. Nazar
2017
Corpus ID: 46914687
Nonaqueous potassium-ion batteries have emerged as possible low-cost alternatives to Li-ion batteries for large-scale energy…
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Highly Cited
2015
Highly Cited
2015
Metal organic frameworks route to in situ insertion of multiwalled carbon nanotubes in Co3O4 polyhedra as anode materials for lithium-ion batteries.
Gang Huang
,
Fei-fei Zhang
,
Xin-chuan Du
,
Yuling Qin
,
Dongming Yin
,
Limin Wang
ACS Nano
2015
Corpus ID: 32660374
Hybridizing nanostructured metal oxides with multiwalled carbon nanotubes (MWCNTs) is highly desirable for the improvement of…
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Highly Cited
2014
Highly Cited
2014
Ultrasmall Sn nanoparticles embedded in nitrogen-doped porous carbon as high-performance anode for lithium-ion batteries.
Zhiqiang Zhu
,
Shiwen Wang
,
+4 authors
Jun Chen
Nano letters (Print)
2014
Corpus ID: 5301696
In this Letter, we reported on the preparation and Li-ion battery anode application of ultrasmall Sn nanoparticles (∼5 nm…
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Highly Cited
2014
Highly Cited
2014
Rational design of MnO/carbon nanopeapods with internal void space for high-rate and long-life li-ion batteries.
Hao Jiang
,
Yanjie Hu
,
Shaojun Guo
,
Chaoyi Yan
,
Pooi See Lee
,
Chunzhong Li
ACS Nano
2014
Corpus ID: 20635381
Searching the long-life MnO-based materials for lithium ion batteries (LIBs) is still a great challenge because of the issue…
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Highly Cited
2014
Highly Cited
2014
Amorphous vanadium oxide matrixes supporting hierarchical porous Fe3O4/graphene nanowires as a high-rate lithium storage anode.
Qinyou An
,
Fan Lv
,
+6 authors
L. Mai
Nano letters (Print)
2014
Corpus ID: 8206819
Developing electrode materials with both high energy and power densities holds the key for satisfying the urgent demand of energy…
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Highly Cited
2014
Highly Cited
2014
Three‐Dimensionally “Curved” NiO Nanomembranes as Ultrahigh Rate Capability Anodes for Li‐Ion Batteries with Long Cycle Lifetimes
Xiaolei Sun
,
Chenglin Yan
,
+5 authors
Oliver G. Schmidt
2014
Corpus ID: 16793193
X. Sun, Dr. C. Yan, Dr. Y. Chen, W. Si, J. Deng, Prof. O. G. Schmidt Institute for Integrative Nanosciences IFW Dresden…
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Highly Cited
2012
Highly Cited
2012
Synthesis of a metallic mesoporous pyrochlore as a catalyst for lithium–O2 batteries.
S. Oh
,
Robert W Black
,
E. Pomerantseva
,
Jin-Hyon Lee
,
L. Nazar
Nature Chemistry
2012
Corpus ID: 6806888
The lithium–O2 ‘semi-fuel’ cell based on the reversible reaction of Li and O2 to form Li2O2 can theoretically provide energy…
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Highly Cited
2012
Highly Cited
2012
Photothermally reduced graphene as high-power anodes for lithium-ion batteries.
R. Mukherjee
,
A. Thomas
,
A. Krishnamurthy
,
N. Koratkar
ACS Nano
2012
Corpus ID: 18450590
Conventional graphitic anodes in lithium-ion batteries cannot provide high-power densities due to slow diffusivity of lithium…
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Highly Cited
2011
Highly Cited
2011
Sandwich-type functionalized graphene sheet-sulfur nanocomposite for rechargeable lithium batteries.
Yuliang Cao
,
Xiaoling Li
,
+4 authors
Jun Liu
Physical Chemistry, Chemical Physics - PCCP
2011
Corpus ID: 13711988
A functionalized graphene sheet-sulfur (FGSS) nanocomposite was synthesized as the cathode material for lithium-sulfur batteries…
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Highly Cited
2008
Highly Cited
2008
Metal hydrides for lithium-ion batteries.
Y. Oumellal
,
Aline Rougier
,
G. Nazri
,
J. Tarascon
,
L. Aymard
Nature Materials
2008
Corpus ID: 25260098
Classical electrodes for Li-ion technology operate via an insertion/de-insertion process. Recently, conversion electrodes have…
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