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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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Broader (1)

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
Nonaqueous potassium-ion batteries have emerged as possible low-cost alternatives to Li-ion batteries for large-scale energy… 
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.
Hybridizing nanostructured metal oxides with multiwalled carbon nanotubes (MWCNTs) is highly desirable for the improvement of… 
Highly Cited
2014
Highly Cited
2014
Ultrasmall Sn nanoparticles embedded in nitrogen-doped porous carbon as high-performance anode for lithium-ion batteries.
In this Letter, we reported on the preparation and Li-ion battery anode application of ultrasmall Sn nanoparticles (∼5 nm… 
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.
Searching the long-life MnO-based materials for lithium ion batteries (LIBs) is still a great challenge because of the issue… 
Highly Cited
2014
Highly Cited
2014
Amorphous vanadium oxide matrixes supporting hierarchical porous Fe3O4/graphene nanowires as a high-rate lithium storage anode.
Developing electrode materials with both high energy and power densities holds the key for satisfying the urgent demand of energy… 
Highly Cited
2014
Highly Cited
2014
Three‐Dimensionally “Curved” NiO Nanomembranes as Ultrahigh Rate Capability Anodes for Li‐Ion Batteries with Long Cycle Lifetimes
X. Sun, Dr. C. Yan, Dr. Y. Chen, W. Si, J. Deng, Prof. O. G. Schmidt Institute for Integrative Nanosciences IFW Dresden… 
Highly Cited
2012
Highly Cited
2012
Synthesis of a metallic mesoporous pyrochlore as a catalyst for lithium–O2 batteries.
The lithium–O2 ‘semi-fuel’ cell based on the reversible reaction of Li and O2 to form Li2O2 can theoretically provide energy… 
Highly Cited
2012
Highly Cited
2012
Photothermally reduced graphene as high-power anodes for lithium-ion batteries.
Conventional graphitic anodes in lithium-ion batteries cannot provide high-power densities due to slow diffusivity of lithium… 
Highly Cited
2011
Highly Cited
2011
Sandwich-type functionalized graphene sheet-sulfur nanocomposite for rechargeable lithium batteries.
A functionalized graphene sheet-sulfur (FGSS) nanocomposite was synthesized as the cathode material for lithium-sulfur batteries… 
Highly Cited
2008
Highly Cited
2008
Metal hydrides for lithium-ion batteries.
Classical electrodes for Li-ion technology operate via an insertion/de-insertion process. Recently, conversion electrodes have… 
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