Effect of poly(acrylic acid) binder on the stability of sulfur‐enriched crystalline
            <scp>
              Mo
              <sub>3</sub>
              S
              <sub>13</sub>
            </scp>
            clusters for high capacity of Li‐ion batteries

Lee, Hae Ri; Lee, Youn‐Ki; Park, Gwan Gyu; Lee, Sungho; Joh, Han‐Ik

doi:10.1002/er.8068

Intl J of Energy Research

2022

DOI: 10.1002/er.8068

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Effect of poly(acrylic acid) binder on the stability of sulfur‐enriched crystalline Mo ₃ S ₁₃ clusters for high capacity of Li‐ion batteries

Hae Ri Lee

Youn‐Ki Lee

Gwan Gyu Park

et al.

Abstract: Summary Molybdenum sulfide (MoSx)‐based materials have been extensively studied as a potential alternative of low‐capacity graphite anode, owing to their remarkable capacity through intercalation and conversion reactions. However, these materials should be electrochemically activated at a low potential in first discharge and simultaneously degrade, owing to their inert basal plane and unstable sulfur configuration, respectively, leading to unexpectedly low performance. Hence, it is necessary to apply sulfur‐en… Show more

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Cited by 2 publications

References 51 publications

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Multielectron Conversion: Peculiar Transition Metal Sulfides with Mixed Vulcanized States toward High‐Capacity Metal‐Ion Storage

Song

Wang

et al. 2023

Advanced Energy Materials

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Transition metal sulfides with mixed vulcanized states (TMS-mVs) possess tremendous potential to realize highcapacity, superior redox reactions, and structural reversibility for metal-ion (M n+ ) storage owing to their multielectron reactions caused by the simultaneous participation of transition metal (TM) cations and S 2 2− anions as well as multifarious TM or S valence states. Here, recent advances are systematically introduced regarding the mainstream TMS-mVs that can be applied to M n+ storage. These TMS-mVs can be divided into two categories of TMS, those with mixed sulfur-valence states (TMS-mSs) and those with mixed metal-valence states (TMS-mMs). It is found that TMS-mV anodes mainly experience three reaction mechanisms, inculding insertion-accompanied conversion, insertion, and conversion reactions. During the reversible charge process, Li 2 S is possibly oxidized into polysulfides or even S. TMS-mVs have the ability to transfer more electrons than other homogeneous TMSs. TMS-mS anodes usually present higher theoretical specific capacities than TMS-mM anodes. In these TMS-mV anodes, Mo-based, V-based, and Co-based TMS-mM anodes exhibit good electrochemical reversibility, Ni-based TMS-mM anodes exhibit moderate electrochemical reversibility, and Fe-based TMS-mM and TMS-mS anodes exhibit poor electrochemical reversibility. The strategies for enhancement of their electrochemical performance are classified into composite, coating, nanostructure, heterointerface, and lattice engineering.

show abstract

Multielectron Conversion: Peculiar Transition Metal Sulfides with Mixed Vulcanized States toward High‐Capacity Metal‐Ion Storage

Song

Wang

et al. 2023

Advanced Energy Materials

View full text Add to dashboard Cite

show abstract

Understanding the influence of sulfur configuration on the electrochemical reaction pathway for lithium storage in molybdenum sulfides

Lee,

Ri Lee

et al. 2024

Chemical Engineering Journal

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Effect of poly(acrylic acid) binder on the stability of sulfur‐enriched crystalline Mo ₃ S ₁₃ clusters for high capacity of Li‐ion batteries

Cited by 2 publications

References 51 publications

Multielectron Conversion: Peculiar Transition Metal Sulfides with Mixed Vulcanized States toward High‐Capacity Metal‐Ion Storage

Multielectron Conversion: Peculiar Transition Metal Sulfides with Mixed Vulcanized States toward High‐Capacity Metal‐Ion Storage

Understanding the influence of sulfur configuration on the electrochemical reaction pathway for lithium storage in molybdenum sulfides

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Effect of poly(acrylic acid) binder on the stability of sulfur‐enriched crystalline Mo 3 S 13 clusters for high capacity of Li‐ion batteries

Cited by 2 publications

References 51 publications

Multielectron Conversion: Peculiar Transition Metal Sulfides with Mixed Vulcanized States toward High‐Capacity Metal‐Ion Storage

Multielectron Conversion: Peculiar Transition Metal Sulfides with Mixed Vulcanized States toward High‐Capacity Metal‐Ion Storage

Understanding the influence of sulfur configuration on the electrochemical reaction pathway for lithium storage in molybdenum sulfides

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Effect of poly(acrylic acid) binder on the stability of sulfur‐enriched crystalline Mo ₃ S ₁₃ clusters for high capacity of Li‐ion batteries