Journal ArticleDOI
MWNT/C/Mg1.03Mn0.97SiO4 hierarchical nanostructure for superior reversible magnesium ion storage
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In this paper, a MWNT/C/Mg 1.03 Mn 0.97 SiO 4 hierarchical nanostructure composed of MWNTs pinning the surface of the Mg 2.5 µm 0.About:
This article is published in Electrochemistry Communications.The article was published on 2011-10-01. It has received 54 citations till now. The article focuses on the topics: Magnesium ion & Nanostructure.read more
Citations
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Mg rechargeable batteries: an on-going challenge
TL;DR: In this paper, the authors review the recent accumulated experience, understandings, new strategies and materials, in the continuous R&D process of non-aqueous Mg batteries.
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Applications of hierarchically structured porous materials from energy storage and conversion, catalysis, photocatalysis, adsorption, separation, and sensing to biomedicine
Ming-Hui Sun,Shaozhuan Huang,Li-Hua Chen,Yu Li,Xiao-Yu Yang,Zhong-Yong Yuan,Bao-Lian Su,Bao-Lian Su,Bao-Lian Su +8 more
TL;DR: Recent progress in the applications of hierarchically structured porous materials from energy conversion and storage, catalysis, photocatalysis, adsorption, separation, and sensing to biomedicine is reviewed and could stimulate researchers to synthesize new advanced hierarchically porous solids.
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Odyssey of Multivalent Cathode Materials: Open Questions and Future Challenges
Pieremanuele Canepa,Pieremanuele Canepa,Gopalakrishnan Sai Gautam,Gopalakrishnan Sai Gautam,Gopalakrishnan Sai Gautam,Daniel C. Hannah,Rahul Malik,Miao Liu,Kevin G. Gallagher,Kristin A. Persson,Gerbrand Ceder,Gerbrand Ceder,Gerbrand Ceder +12 more
TL;DR: A critical and rigorous analysis of the increasing volume of multivalent battery research, focusing on a wide range of intercalation cathode materials and the mechanisms ofMultivalent ion insertion and migration within those frameworks.
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A critical review of cathodes for rechargeable Mg batteries
TL;DR: This critical review will provide comprehensive knowledge of Mg cathodes and guidelines for exploring new cathodes for rechargeable magnesium batteries and highlights the merits and challenges of each class of cathodes.
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Electrochemical and spectroscopic analysis of Mg2+ intercalation into thin film electrodes of layered oxides: V2O5 and MoO3.
TL;DR: By applying the electrochemical driving force sufficiently slowly it was possible to measure the electrodes at equilibrium conditions and verify by spectroscopy, microscopy, and diffractometry that these electrodes undergo fully reversible structural changes upon Mg-ion insertion/deinsertion cycling.
References
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Building better batteries
TL;DR: Researchers must find a sustainable way of providing the power their modern lifestyles demand to ensure the continued existence of clean energy sources.
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Prototype systems for rechargeable magnesium batteries
Doron Aurbach,Z. Lu,Alex Schechter,Yossi Gofer,Haim Gizbar,R. Turgeman,Yair Cohen,M. Moshkovich,Elena Levi +8 more
TL;DR: Rechargeable Mg battery systems that show promise for applications comprise electrolyte solutions based on Mg organohaloaluminate salts, and MgxMo 3S4 cathodes, into which Mg ions can be intercalated reversibly, and with relatively fast kinetics.
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Nano-network electronic conduction in iron and nickel olivine phosphates.
TL;DR: The demonstration of non-carbonaceous-network grain-boundary conduction to be the first in these materials, and that it holds promise for other insulating phosphates.
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On the Way to Rechargeable Mg Batteries: The Challenge of New Cathode Materials†
TL;DR: In this paper, the authors compare different strategies for developing Mg battery cathodes, like the use of nanoscale cathode materials, hybrid intercalation compounds containing bound water or other additional anion groups that can presumably screen the charge of the inserted cations, and cluster-containing compounds with efficient attainment of local electroneutrality.
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Magnesium insertion electrodes for rechargeable nonaqueous batteries — a competitive alternative to lithium?
Petr Novák,Roman Imhof,Otto Haas +2 more
TL;DR: In this article, the available results of research, both on rechargeable negative electrodes based either on metallic magnesium or alternative materials, and on materials suitable as positive, magnesium-inserting (counter)electrodes for secondary magnesium batteries, are critically reviewed.