Litcius/Paper detail

Phase Engineering and Alkali Cation Stabilization for 1T Molybdenum Dichalcogenides Monolayers

Fu Liu, Yiming Zou, Xiaoyu Tang, Lei Mao, Dou Du, Helin Wang, Min Zhang, Zhiqiao Wang, Ning Yao, Wenyu Zhao, Miao Bai, Ting Zhao, Yujie Liu, Yue Ma

2022Advanced Functional Materials46 citationsDOIOpen Access PDF

Abstract

Abstract The technological barriers of the dimensional engineering and interfacial instability seriously hinder the scalable production of metallic (1T) transition metal dichalcogenides (TMD) monolayers. In this article, a facile and fast electron injection strategy is developed to modulate the d orbits of Mo center in trigonal prismatic 2H phases (MoS 2 and MoSe 2 ); meanwhile various cations (Li + , Na + , and K + ) reinforce the in‐plane 1T‐atomic arrangement and expand the out‐of‐plane spacing for easy exfoliation. Theoretical and experimental evaluations further elucidate the decisive electron‐donating capability and suitable ionic radius in stabilizing 1T coordination. The as‐tailored 1T‐MoS 2 /MoSe 2 anodes can achieve the robust Na + storage in the half cells (5000 cycles at 5 A g –1 ) and extreme power output of 3134.9 W kg –1 in the full cell. This phase‐engineering approach enables the precise dimensional manipulation of the 1T TMDs, which further extends their application horizons as the cation host for the power‐oriented battery systems.

Topics & Concepts

Materials scienceExfoliation jointMonolayerMolybdenumAlkali metalIonic radiusPhase (matter)Transition metalBattery (electricity)AnodeNanotechnologyIonic bondingAtomic radiusMetalRADIUSAtomic unitsChemical physicsIonPower (physics)Physical chemistryGrapheneElectrodeThermodynamicsMetallurgyComputer scienceCatalysisOrganic chemistryQuantum mechanicsComputer securityPhysicsChemistryBiochemistry2D Materials and ApplicationsAdvanced Photocatalysis TechniquesMXene and MAX Phase Materials
Phase Engineering and Alkali Cation Stabilization for 1T Molybdenum Dichalcogenides Monolayers | Litcius