C Barry Carter scite author profile

Transition metal dichalcogenides (TMDs) are a class of 2D materials demonstrating promising properties, such as high capacities and cycling stabilities, making them strong candidates to replace graphitic anodes in lithium-ion batteries. However, certain TMDs, for instance, MoS2, undergo a phase transformation from 2H to 1T during intercalation that can affect the mobility of the intercalating ions, the anode voltage, and the reversible capacity. In contrast, select TMDs, for instance, NbS2 and VS2, resist this type of phase transformation during Li-ion intercalation. This manuscript uses density functional theory simulations to investigate the phase transformation of TMD heterostructures during Li-, Na-, and K-ion intercalation. The simulations suggest that while stacking MoS2 layers with NbS2 layers is unable to limit this 2H → 1T transformation in MoS2 during Li-ion intercalation, the interfaces effectively stabilize the 2H phase of MoS2 during Na- and K-ion intercalation. However, stacking MoS2 layers with VS2 is able to suppress the 2H → 1T transformation of MoS2 during the intercalation of Li, Na, and K-ions. The creation of TMD heterostructures by stacking MoS2 with layers of non-transforming TMDs also renders theoretical capacities and electrical conductivities that are higher than that of bulk MoS2.

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C Barry Carter

HRTEM and EELS Studies on the Structural and Chemical Modification of MoS₂ and Graphite During In-situ Reactions with Li and Na

Phase engineering of layered anode materials during ion-intercalation in Van der Waal heterostructures

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C Barry Carter

HRTEM and EELS Studies on the Structural and Chemical Modification of MoS2 and Graphite During In-situ Reactions with Li and Na

Phase engineering of layered anode materials during ion-intercalation in Van der Waal heterostructures

Contact Info

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Resources

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HRTEM and EELS Studies on the Structural and Chemical Modification of MoS₂ and Graphite During In-situ Reactions with Li and Na