Relevant bibliographies by topics / Alluaudite sulfate

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Academic literature on the topic 'Alluaudite sulfate'

Author: Grafiati
Published: 6 September 2023

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Journal articles on the topic "Alluaudite sulfate"

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Wang, Wei, Xiaohao Liu, Qunjie Xu, Haimei Liu, Yong-Gang Wang, Yongyao Xia, Yuliang Cao, and Xinping Ai. "A high voltage cathode of Na2+2xFe2−x(SO4)3 intensively protected by nitrogen-doped graphene with improved electrochemical performance of sodium storage." Journal of Materials Chemistry A 6, no. 10 (2018): 4354–64. http://dx.doi.org/10.1039/c7ta11110j.

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Watcharatharapong, Teeraphat, Sudip Chakraborty, and Rajeev Ahuja. "Mapping the sodium intercalation mechanism, electrochemical properties and structural evolution in non-stoichiometric alluaudite Na2+2δFe2−δ(SO4)3 cathode materials." Journal of Materials Chemistry A 7, no. 29 (2019): 17446–55. http://dx.doi.org/10.1039/c9ta03930a.

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The influence of non-stoichiometry on sodium intercalation mechanism, electrochemical properties and structural evolution, and their correlation in 3.8 V alluaudite sodium iron sulfate Na2+2δFe2−δ(SO4)3 cathode materials where δ = 0, 0.25 and 0.5.
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Oyama, Gosuke, Oliver Pecher, Kent J. Griffith, Shin-ichi Nishimura, Roberta Pigliapochi, Clare P. Grey, and Atsuo Yamada. "Sodium Intercalation Mechanism of 3.8 V Class Alluaudite Sodium Iron Sulfate." Chemistry of Materials 28, no. 15 (July 21, 2016): 5321–28. http://dx.doi.org/10.1021/acs.chemmater.6b01091.

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Marinova, D. M., V. V. Kostov, R. P. Nikolova, R. R. Kukeva, E. N. Zhecheva, and R. K. Stoyanova. "Redox properties of alluaudite sodium cobalt manganese sulfates as high-voltage electrodes for rechargeable batteries." Chemical Communications 54, no. 43 (2018): 5466–69. http://dx.doi.org/10.1039/c8cc01922c.

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This is the first experimental evidence for the operation of sodium cobalt-manganese sulfate, Na2+2δ(Co0.63Mn0.37)2−δ(SO4)3, at potentials higher than 4.0 V vs. Li/Li+.
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Oyama, Gosuke, Hisao Kiuchi, Sai Cheong Chung, Yoshihisa Harada, and Atsuo Yamada. "Combined Experimental and Computational Analyses on the Electronic Structure of Alluaudite-Type Sodium Iron Sulfate." Journal of Physical Chemistry C 120, no. 41 (October 7, 2016): 23323–28. http://dx.doi.org/10.1021/acs.jpcc.6b05569.

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Jungers, Thomas, Abdelfattah Mahmoud, Cedric Malherbe, Frederic Boschini, and Benedicte Vertruyen. "Sodium iron sulfate alluaudite solid solution for Na-ion batteries: moving towards stoichiometric Na2Fe2(SO4)3." Journal of Materials Chemistry A 7, no. 14 (2019): 8226–33. http://dx.doi.org/10.1039/c9ta00116f.

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Nishimura, Shin-ichi, Yuya Suzuki, Jiechen Lu, Shuki Torii, Takashi Kamiyama, and Atsuo Yamada. "High-Temperature Neutron and X-ray Diffraction Study of Fast Sodium Transport in Alluaudite-type Sodium Iron Sulfate." Chemistry of Materials 28, no. 7 (March 25, 2016): 2393–99. http://dx.doi.org/10.1021/acs.chemmater.6b00604.

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Oyama, Gosuke, Shin-ichi Nishimura, Yuya Suzuki, Masashi Okubo, and Atsuo Yamada. "Off-Stoichiometry in Alluaudite-Type Sodium Iron Sulfate Na2+2xFe2−x(SO4)3as an Advanced Sodium Battery Cathode Material." ChemElectroChem 2, no. 7 (April 15, 2015): 1019–23. http://dx.doi.org/10.1002/celc.201500036.

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Marinova, D., V. Kostov, R. Nikolova, R. Kukeva, E. Zhecheva, M. Sendova-Vasileva, and R. Stoyanova. "From kröhnkite- to alluaudite-type of structure: novel method of synthesis of sodium manganese sulfates with electrochemical properties in alkali-metal ion batteries." Journal of Materials Chemistry A 3, no. 44 (2015): 22287–99. http://dx.doi.org/10.1039/c5ta07204b.

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Alluaudite-type Na2+δMn2−δ/2(SO4)3 is obtained by dehydration of the kröhnkite-type phase Na2Mn(SO4)3·2H2O and can deliver a reversible capacity of 135 mA h g−1 as cathode materials in lithium ion cells.
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Pekov, Igor V., Natalia N. Koshlyakova, Atali A. Agakhanov, Natalia V. Zubkova, Dmitry I. Belakovskiy, Marina F. Vigasina, Anna G. Turchkova, Evgeny G. Sidorov, and Dmitry Yu Pushcharovsky. "New arsenate minerals from the Arsenatnaya fumarole, Tolbachik volcano, Kamchatka, Russia. XV. Calciojohillerite, NaCaMgMg2(AsO4)3, a member of the alluaudite group." Mineralogical Magazine 85, no. 2 (January 14, 2021): 215–23. http://dx.doi.org/10.1180/mgm.2021.2.

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AbstractThe new alluaudite-group mineral calciojohillerite is one of the major arsenates in sublimates of the Arsenatnaya fumarole at the Second scoria cone of the Northern Breakthrough of the Great Tolbachik Fissure Eruption, Tolbachik volcano, Kamchatka, Russia. In middle zones of the fumarole, calciojohillerite is associated with hematite, tenorite, johillerite, nickenichite, bradaczekite, badalovite, tilasite, lammerite, ericlaxmanite, aphthitalite-group sulfates, langbeinite, calciolangbeinite, anhydrite, sanidine, fluorophlogopite, fluoborite, cassiterite, pseudobrookite, rutile, sylvite and halite. In deep zones it occurs in association with anhydrite, diopside, hematite, svabite, berzeliite, schäferite, forsterite, magnesioferrite, ludwigite, rhabdoborite-group fluoroborates, powellite, baryte, fluorapatite, udinaite, arsenudinaite and paraberzeliite. Calciojohillerite forms prismatic crystals up to 1 cm long, their aggregates and crystal crusts up to 0.5 m2. It is transparent, colourless, pale green, pale yellow, light blue, pale lilac or pink, with vitreous lustre. The mineral is brittle, with imperfect cleavage. The Mohs hardness is 3½. Dcalc is 3.915 g cm–3. Calciojohillerite is optically biaxial (–), α = 1.719(3), β = γ = 1.732(3); 2Vmeas. = 15(10)°. Chemical composition (wt.%, electron-microprobe; holotype) is: Na2O 7.32, K2O 0.10, CaO 6.82, MgO 20.31, MnO 0.68, CuO 0.27, ZnO 0.02, Al2O3 0.56, Fe2O3 3.53, TiO2 0.01, SiO2 0.03, P2O5 1.25, V2O5 0.10, As2O5 58.77, SO3 0.13, total 99.90. The empirical formula based on 12 O atoms is (Na1.30K0.01Ca0.67Mg2.78Mn0.05Cu0.02Al0.06Fe3+0.24)Σ5.13(As2.83P0.10S0.01V0.01)Σ2.95O12. Calciojohillerite is monoclinic, C2/c, a = 11.8405(3), b = 12.7836(2), c = 6.69165(16) Å, β = 112.425(3)°, V = 936.29(4) Å3 and Z = 4. The crystal structure was solved from single-crystal X-ray diffraction data, R1 = 0.0227. Calciojohillerite is isostructural with other alluaudite-group minerals. Its simplified crystal chemical formula is A(1)CaA(1)′□A(2)□A(2)′NaM(1)MgM(2)Mg2(AsO4)3 (□ = vacancy). The idealised formula is NaCaMg3(AsO4)3, or, according to the nomenclature of alluaudite-group arsenates, NaCaMgMg2(AsO4)3. Calciojohillerite is named as an analogue of johillerite NaCu2+MgMg2(AsO4)3 with species-defining Ca instead of Cu in the ideal formula.
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Dissertations / Theses on the topic "Alluaudite sulfate"

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Dwibedi, Debasmita. "Alluaudite Class of High-Voltage Cathodes for Sodium-Ion Battery Applications: A Synthesis, Structure, Property Correlation Study." Thesis, 2018. https://etd.iisc.ac.in/handle/2005/5295.

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The work presented in this thesis demonstrates alluaudites as a niche class of compounds forming the rich treasure house of sodium insertion hosts. The potential of this open frame-worked alluaudites is immense and further research will open up newer domains of applications. The current thesis work has also elucidated in-depth crystal/ magnetic structure analysis and Rietveld refinement of these novel compounds by combining X-ray, neutron and synchrotron diffraction techniques. It has also explored the synthesis of various metastable phases and polymorphism at different synthetic conditions to gauge their structural and electrochemical properties
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