Olivine‐Type MgMn 0.5 Zn 0.5 SiO 4 Cathode for Mg‐Batteries: Experimental Studies and First Principles Calculations

Magnesium driven reaction in olivine‐type MgMn 0.5 Zn 0.5 SiO 4 structure is subject of study by experimental tests and density functional theory (DFT) calculations. The partial replacement of Mn in Oh sites by other divalent metal such as Zn to get MgMn 0.5 Zn 0.5 SiO 4 cathode is successfully deve...

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Published inSmall (Weinheim an der Bergstrasse, Germany) Vol. 19; no. 12; p. e2206010
Main Authors Pérez‐Vicente, Carlos, Rubio, Saúl, Ruiz, Rafaela, Zuo, Wenhua, Liang, Ziteng, Yang, Yong, Ortiz, Gregorio F.
Format Journal Article
LanguageEnglish
Published Germany 01.03.2023
Subjects
MgMn 0.5Zn 0.5SiO 4
density functional theory (DFT)
magnesium
olivine
silicate
batteries
Online AccessGet full text
ISSN1613-6810
1613-6829
DOI10.1002/smll.202206010

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Abstract Magnesium driven reaction in olivine‐type MgMn 0.5 Zn 0.5 SiO 4 structure is subject of study by experimental tests and density functional theory (DFT) calculations. The partial replacement of Mn in Oh sites by other divalent metal such as Zn to get MgMn 0.5 Zn 0.5 SiO 4 cathode is successfully developed by a simple sol–gel method. Its comparison with the well‐known MgMnSiO 4 olivine‐type structure with (Mg) M1 (Mn) M2 SiO 4 cations distribution serves as the basis of this study to understand the structure, and the magnesium extraction/insertion properties of novel olivine‐type (Mg) M1 (Mn 0.5 Zn 0.5 ) M2 SiO 4 composition. This work foresees to extend the study to others divalent elements in olivine‐type (Mg) M1 (Mn 0.5 M 0.5 ) M2 SiO 4 structure with M = Fe, Ca, Mg, and Ni by DFT calculations. The obtained results indicate that the energy density can be attuned between 520 and 440 W h kg −1 based on two properties of atomic weight and redox chemistry. The presented results commit to open new paths toward development of cathodes materials for Mg batteries.
AbstractList Magnesium driven reaction in olivine-type MgMn Zn SiO structure is subject of study by experimental tests and density functional theory (DFT) calculations. The partial replacement of Mn in Oh sites by other divalent metal such as Zn to get MgMn Zn SiO cathode is successfully developed by a simple sol-gel method. Its comparison with the well-known MgMnSiO olivine-type structure with (Mg) (Mn) SiO cations distribution serves as the basis of this study to understand the structure, and the magnesium extraction/insertion properties of novel olivine-type (Mg) (Mn Zn ) SiO composition. This work foresees to extend the study to others divalent elements in olivine-type (Mg) (Mn M ) SiO structure with M = Fe, Ca, Mg, and Ni by DFT calculations. The obtained results indicate that the energy density can be attuned between 520 and 440 W h kg based on two properties of atomic weight and redox chemistry. The presented results commit to open new paths toward development of cathodes materials for Mg batteries.
Magnesium driven reaction in olivine‐type MgMn 0.5 Zn 0.5 SiO 4 structure is subject of study by experimental tests and density functional theory (DFT) calculations. The partial replacement of Mn in Oh sites by other divalent metal such as Zn to get MgMn 0.5 Zn 0.5 SiO 4 cathode is successfully developed by a simple sol–gel method. Its comparison with the well‐known MgMnSiO 4 olivine‐type structure with (Mg) M1 (Mn) M2 SiO 4 cations distribution serves as the basis of this study to understand the structure, and the magnesium extraction/insertion properties of novel olivine‐type (Mg) M1 (Mn 0.5 Zn 0.5 ) M2 SiO 4 composition. This work foresees to extend the study to others divalent elements in olivine‐type (Mg) M1 (Mn 0.5 M 0.5 ) M2 SiO 4 structure with M = Fe, Ca, Mg, and Ni by DFT calculations. The obtained results indicate that the energy density can be attuned between 520 and 440 W h kg −1 based on two properties of atomic weight and redox chemistry. The presented results commit to open new paths toward development of cathodes materials for Mg batteries.
Author Ortiz, Gregorio F.
Pérez‐Vicente, Carlos
Liang, Ziteng
Ruiz, Rafaela
Rubio, Saúl
Zuo, Wenhua
Yang, Yong
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Issue 12
Keywords MgMn 0.5Zn 0.5SiO 4
density functional theory (DFT)
magnesium
olivine
silicate
batteries
Language English
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Snippet Magnesium driven reaction in olivine‐type MgMn 0.5 Zn 0.5 SiO 4 structure is subject of study by experimental tests and density functional theory (DFT)...
Magnesium driven reaction in olivine-type MgMn Zn SiO structure is subject of study by experimental tests and density functional theory (DFT) calculations. The...
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Title Olivine‐Type MgMn 0.5 Zn 0.5 SiO 4 Cathode for Mg‐Batteries: Experimental Studies and First Principles Calculations
URI https://www.ncbi.nlm.nih.gov/pubmed/36634973
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