Raul Zazpe1,2,Jaroslav Charvot1,Ludek Hromadko1,2,Hanna Sopha1,2,Jhonatan Rodriguez-Pereira1,2,Filip Bures1,Jan Macak1,2
University Pardubice1,Central European Institute of Technology2
Raul Zazpe1,2,Jaroslav Charvot1,Ludek Hromadko1,2,Hanna Sopha1,2,Jhonatan Rodriguez-Pereira1,2,Filip Bures1,Jan Macak1,2
University Pardubice1,Central European Institute of Technology2
2D semiconductor transition metal dichalcogenides have attracted considerable attention due to their layered structure, suitable band gap, electrochemically active unsaturated edges and relatively good stability against photocorrosion. These properties result promising for different applications including, Li-ion batteries, photocatalysis and hydrogen evolution reaction (HER). Apart from the widely studied 2D MoS<sub>2</sub>, 2D selenide and telluride equivalents, MoSe<sub>2</sub> and MoTe<sub>2</sub>, have recently gained considerable interest due to their higher electrical conductivity, wider inter-layer distance and narrower bandgap as compared to MoS<sub>2</sub>, high surface area and close to zero Gibbs free energy edges for hydrogen adsorption.<br/>Unlike sulfide dichalcogenides, the lack of Se and Te precursors have prevented the synthesis of selenide and telluride dichalcogenides by ALD. In order to surpass such impediment, we present a set of novel in-house synthesized Se and Te compounds, which were successfully combined with commercial Mo precursor to synthesize MoSe<sub>2</sub> and MoTe<sub>2 </sub>by ALD [1-5]. The as-deposited ALD MoSe<sub>2 </sub>and MoTe<sub>2</sub> on substrates of different nature were extensively characterized by different techniques, which confirmed the chemical composition and revealed the growth of 2D flaky nano-crystalline MoSe<sub>2 </sub>and MoTe<sub>2</sub>. In parallel, MoSe<sub>2</sub> and MoTe<sub>2</sub>@TiO<sub>2</sub> nanotube layers (TNTs) heterostructures were fabricated in a simple and fast fashion to explore and exploit the MoSe<sub>2</sub> and MoTe<sub>2 </sub>photo- and electrocatalytic properties. TNTs act as excellent photoactive supporting material providing a high surface area, unique directionality for charge separation, and highly effective charge collection.<br/>The presentation will introduce and describe the synthesis of the 2D Mo dichalcogenides, the corresponding physical and electrochemical characterization and encouraging results obtained in HER [4,5], photocatalysis [4-6] and Li-ion batteries [7].<br/>[1] R. Zazpe et al, FlatChem (2020) 21 100166<br/>[2] J. Charvot et al, Chempluschem (2020) 85 576<br/>[3] J. Charvot et al, RSC Adv. (2021) 11 22140<br/>[4] R. Zazpe et al, ACS Appl. Nano Mater. (2021) 3 12 12034<br/>[5] R. Zazpe et al, Appl. Mater. Today (2021) 23 101017<br/>[6] M. Motola et al, Nanoscale (2019) 11 23126<br/>[7] H. Sopha et al FlatChem (2019) 17 100130