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Coupling Effect of Piezo–Flexocatalytic Hydrogen Evolution with Hybrid 1T‐ and 2H‐Phase Few‐Layered MoSe<sub>2</sub> Nanosheets

Yun‐Jung Chung, C.‐C. YANG, Jyun‐Ting Lee, Guan Hua Wu, Jyh Ming Wu

2020Advanced Energy Materials105 citationsDOI

Abstract

Abstract Hybrid 1T‐ and 2H‐phase MoSe 2 nanosheets with active reaction sites, which display strong piezoelectric responses and extraordinary flexoelectric potential (flexopotential), are demonstrated. The strain‐induced piezoelectric potential (piezopotential) establishes at interfacial areas between 1T and 2H‐phase that modulates the local‐contact characteristics to enhance charge separation. The piezo‐ and flexopotential coupling effect is observed not only on edge‐site MoSe 2 nanosheets but also on polarized surfaces of the MoSe 2 nanosheets across the top and bottom surfaces, thus establishing an internal electric field to separate electron–hole pairs and proceeding with electrochemical reaction with polar molecules, generating hydrogen gas at ≈5000 µmol g −1 h −1 . The nanosheets assemble nanoflowers with abundant edge‐sites, which serve as cantilever beams for traction force at the free ends of nanosheets. On increasing the bending moment, an extraordinary flexopotential results along the z ‐axis. The strain gradients induce piezo–flexoelectric coupling effects on numerous edge‐site nanosheets, structural boundaries, and the polarized surface along the z ‐axis, which potentially facilitate a state‐of‐the‐art catalytic hydrogen evolution reaction.

Topics & Concepts

Materials sciencePiezoelectricityChemical physicsCoupling (piping)Electric fieldHydrogenPhase (matter)ElectrochemistryNanotechnologyOptoelectronicsElectrodeComposite materialPhysical chemistryOrganic chemistryChemistryQuantum mechanicsPhysicsNonlocal and gradient elasticity in micro/nano structuresAdvanced Materials and MechanicsMXene and MAX Phase Materials
Coupling Effect of Piezo–Flexocatalytic Hydrogen Evolution with Hybrid 1T‐ and 2H‐Phase Few‐Layered MoSe<sub>2</sub> Nanosheets | Litcius