Shuai Lin scite author profile

2D/2D heterostructures can combine the collective advantages of each 2D material and even show improved properties from synergistic effects. 2D Transition metal carbide Ti 3 C 2 MXene and 2D 1T-MoS 2 have emerged as attractive prototypes in electrochemistry due to their rich properties. Construction of these two 2D materials, as well as investigation about synergistic effects, is absent due to the instability of 1T-MoS 2 . Here, 3D interconnected networks of 1T-MoS 2 /Ti 3 C 2 MXene heterostructure are constructed by magneto-hydrothermal synthesis, and the electrochemical storage mechanisms are investigated. Improved extra capacitance is observed due to enlarged ion storage space from a synergistically interplayed effect in 3D interconnected networks. Outstanding rate performance is realized because of ultrafast electron transport originating from Ti 3 C 2 MXene. This work provides an archetype to realize excellent electrochemical properties in 2D/2D heterostructures.

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Synthesis and lithium ion storage performance of two-dimensional V4C3 MXene

Zhou

Lin

Huang

et al. 2019

Chemical Engineering Journal

161

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Heterostructures of Ni–Co–Al layered double hydroxide assembled on V₄C₃MXene for high-energy hybrid supercapacitors

et al. 2019

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Shuai Lin

2D/2D 1T‐MoS₂/Ti₃C₂ MXene Heterostructure with Excellent Supercapacitor Performance

Synthesis and lithium ion storage performance of two-dimensional V4C3 MXene

Heterostructures of Ni–Co–Al layered double hydroxide assembled on V₄C₃MXene for high-energy hybrid supercapacitors

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Shuai Lin

2D/2D 1T‐MoS2/Ti3C2 MXene Heterostructure with Excellent Supercapacitor Performance

Synthesis and lithium ion storage performance of two-dimensional V4C3 MXene

Heterostructures of Ni–Co–Al layered double hydroxide assembled on V4C3MXene for high-energy hybrid supercapacitors

Contact Info

Product

Resources

About

2D/2D 1T‐MoS₂/Ti₃C₂ MXene Heterostructure with Excellent Supercapacitor Performance

Heterostructures of Ni–Co–Al layered double hydroxide assembled on V₄C₃MXene for high-energy hybrid supercapacitors