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arxiv: 2008.02498 · v1 · pith:D4XD5LOW · submitted 2020-08-06 · cond-mat.mes-hall · physics.chem-ph

Redox-Governed Charge Doping Dictated by Interfacial Diffusion in Two-Dimensional Materials

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classification cond-mat.mes-hall physics.chem-ph
keywords materialsdopingchargediffusionmoleculesnanoscopicpropertiestwo-dimensional
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Controlling extra charge carriers is pivotal in manipulating electronic, optical, and magnetic properties of various two-dimensional (2D) materials. Nonetheless, the ubiquitous hole doping of 2D materials in the air and acids has been controversial in its mechanistic details. Here we show their common origin is an electrochemical reaction driven by redox couples of oxygen and water molecules. Using real-time photoluminescence imaging of WS2 and Raman spectroscopy of graphene, we capture molecular diffusion through the 2D nanoscopic space between 2D materials and hydrophilic substrates, and show that the latter accommodate water molecules also serving as a hydrating solvent. We also demonstrate that HCl-induced doping is governed by dissolved O2 and pH in accordance with the Nernst equation. The nanoscopic electrochemistry anatomized in this work sets an ambient limit to material properties, which is universal to not only 2D but also other forms of materials.

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