Abstract
A systematic study of the synthesis and photoactive properties of MXene heterostructures from four-component MAX phases is proposed for the first time. Important fundamental knowledge on the energy band structure of such materials was obtained, which allowed to explain the photoexcitation and charge transfer processes in photocatalytic compositions of this class. The mechanism of catalytic action of MXene heterostructure compositions was studied. Conducted research extends the field of fundamental knowledge about MXene heterostructures and provides a basis for their practical application, including the transition to new materials for the needs of alternative energy.
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