Maneuvering Tellurium Chemistry to Design Metal–Telluride Heterostructures for Diverse Applications

Abstract: Heterostructures of metal chalcogenides have attracted immense attention due to their enhanced charge transport, synergistic optoelectronic and catalytic properties. While heterostructures of metal−sulfide or metal−selenide nanocrystals have been studied extensively, those of metal−telluride nanocrystals are less explored due to the lower abundance of tellurium. However, tellurium, a group VI element placed at the border between metals and nonmetals in the periodic table, has the ability to adopt multiple oxid… Show more

“…Additionally, low-temperature polymorph selectivity of TiO 2 for anatase has been investigated using microemulsion synthesis . Templating substrates and seed crystals are also examples where the deposited film or growing crystal will adopt a structure similar to the substrate and seed, respectively. Graphene has recently been studied as a templating substrate for glycine crystallization.…”

Memory Effect on the Synthesis of Perovskite-Type Li-Ion Conductor Li_xLa_2/3–x/3TiO₃ (LLTO)

“…Additionally, low-temperature polymorph selectivity of TiO 2 for anatase has been investigated using microemulsion synthesis . Templating substrates and seed crystals are also examples where the deposited film or growing crystal will adopt a structure similar to the substrate and seed, respectively. Graphene has recently been studied as a templating substrate for glycine crystallization.…”

Memory Effect on the Synthesis of Perovskite-Type Li-Ion Conductor Li_xLa_2/3–x/3TiO₃ (LLTO)

“…Metal−tellurides have a lower energy bandgap; hence, the absorption band is positioned closer to longer wavelengths making them suitable for solar-energy-harvesting related applications. 94 5.3. Architectural Design through Site-Selective Overgrowth.…”

Smart Design of Noble Metal–Copper Chalcogenide Dual Plasmonic Heteronanoarchitectures for Emerging Applications: Progress and Prospects

“…Colloidal I–III–VI multinary chalcogenide (MnC) semiconductor nanocrystals (NCs), e.g., AgInX 2 , CuInX 2 (X = chalcogen), etc., emerge as an excellent alternative to the toxic Cd- and Pb-based semiconductors for promising applications in photovoltaic, biolabeling, and NIR-detector. − In the past few decades, however, scant attention has been paid to the synthesis of telluride-based MnCs mostly due to the scarcity of tellurium in natural resources and the belief that it has similar properties to those of other chalcogen analogues (S and Se) . On the contrary, it has been illustrated recently that the structure and reactivity of Te in the whole chalcogenide family are quite different from those of others . It is worth mentioning that despite growing interest in Te-based materials owing to their excellent intriguing properties such as charge transport, thermo/piezo electricity, and fast photoresponse, their practical applications are still limited due to their inevitable surface oxidation. − Therefore, a clear understanding of the fundamental Te chemistry is of the utmost importance for the development of new structures and novel applications.…”

“…6 On the contrary, it has been illustrated recently that the structure and reactivity of Te in the whole chalcogenide family are quite different from those of others. 7 It is worth mentioning that despite growing interest in Te-based materials owing to their excellent intriguing properties such as charge transport, thermo/piezo electricity, and fast photoresponse, their practical applications are still limited due to their inevitable surface oxidation. 8−13 Therefore, a clear understanding of the fundamental Te chemistry is of the utmost importance for the development of new structures and novel applications.…”

Breaking AgInTe₂ Quantum Dot Chain to Fabricate AgInTe₂–ZnS Janus Nanocrystals