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Abstract
Use of MXenes (Ti3C2Tx), which belongs to the family of two-dimensional transition metal nitrides and carbides by encompassing unique combination of metallic conductivity and hydrophilicity, is receiving tremendous attention, since its discovery as energy material in 2011. Owing to its precursor selective chemical etching, and unique intrinsic characteristics, the MXene surface properties are further classified into highly chemically active compound, which further produced different surface functional groups i.?e., oxygen, fluorine or hydroxyl groups. However, the role of surface functional groups doesn’t not only have a significant impact onto its electrochemical and hydrophilic characteristics (i.?e., ion adsorption/diffusion), but also imparting a noteworthy effect onto its conductivity, work function, electronic structure and properties. Henceforth, such kind of inherent chemical nature, robust electrochemistry and high …
