Results 41 to 50 of about 995,769 (332)
Investigating the Intercalation Chemistry of Alkali Ions in Fluoride Perovskites
, 2017 Tanghong Yi +9 more
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Nature Communications, 2023 Two major challenges hinder the advance of aqueous zinc metal batteries for sustainable stationary storage: (1) achieving predominant Zn-ion (de)intercalation at the oxide cathode by suppressing adventitious proton co-intercalation and dissolution, and ...
Chang Li +7 more
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Тонкие химические технологии, 2023 Objectives. To analyze the history of the development of quantum chemistry and software for quantum chemical calculations in Russia at the Ya.K. Syrkin Department of Physical Chemistry of the M.V.
K. V. Bozhenko
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Fast and Extensive Intercalation Chemistry in Wadsley-Roth Phase Based High-Capacity Electrodes
Journal of Energy Chemistry, 2020 Wadsley-Roth (W-R) structured oxides featured with wide channels represent one of the most promising material families showing compelling rate performance for lithium ion batteries. But the structural origin for the fast kinetics of W-R structures is not
Miao Wang +7 more
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High power rechargeable magnesium/iodine battery chemistry
Nature Communications, 2017 Rechargeable magnesium batteries suffer from slow solid-state Mg2+diffusion in the intercalation cathode. Here the authors show magnesium/iodine chemistry in which the liquid–solid two-phase reaction leads to increased rate capabilities by overcoming the
Huajun Tian +10 more
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Electrochemistry and Solid-State Chemistry of Layered Oxides for Li-, Na-, and K-Ion Batteries
Electrochemistry, 2020 Since reversible lithium (de)intercalation of layered LiCoO2 and its high-voltage operation were discovered by Mizushima, Goodenough, and coworkers in 1980, layered lithium transition metal oxides have been mainly used as positive electrode materials for
Kei KUBOTA
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Multivalent Mg2+-, Zn2+-, and Ca2+-Ion Intercalation Chemistry in a Disordered Layered Structure
ACS Applied Energy Materials, 2020 The development of practical multivalent-ion batteries critically depends on the identification of suitable positive electrode materials.
Seong-Eun Kang +7 more
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Magnetic Resonance Letters, 2022 Layered rare earth hydroxides (LREHs) are a novel class of two-dimensional materials with potential applications in various fields. The exchange reactions with organic anions are typically the first step for the functionalization of LREHs.
Yanxin Liu, Shijia Jiang, Jun Xu
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Advanced Functional Materials, EarlyView.PBTTT‐OR‐R, a C14‐alkoxy/alkyl‐PBTTT polymer derivative, is of substantial interest for optoelectronics due to its specific fullerene intercalation behavior and enhanced charge‐transfer absorption. Comparing this polymer with (S) and without (O) homocoupling defects reveals that PBTTT‐OR‐R(O) forms stable co‐crystals with PC61BM, while PBTTT‐OR‐R(S ...
Zhen Liu +14 more
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Nature Communications, 2017 The rational design of intercalation electrodes is largely confined to the optimization of redox chemistry of transition metals and oxygen. Here, the authors report the single anionic redox process in NaCrS2 where it is sulfur rather than chromium that ...
Zulipiya Shadike +10 more
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