Crystal growth in tellurium fluxes and characterization of RuS2 single crystals

“…3f). It is likely that the temperature increase or increase in total amount of the melt allows to obtain crystals larger in size [17][18][19]. Similarly, low rhenium solubility did not allow obtaining crystals in a similar temperature regime.…”

“…The low solubility of ruthenium in tellurium at 850 °C did not allow us to obtain RuTe 2 crystals greater than 100 μm in size (Figure f). It is likely that a temperature increase or increase in the total amount of the melt would allow obtaining crystals that are larger in size. − Similarly, low rhenium solubility did not allow obtaining crystals in a similar temperature regime.…”

“…The application of evaporation can be demonstrated for the crystal growth of RuS2 [17,18,19]. A boomerang-shaped silica glass tube (made by oxygen torch) was used as a reaction vessel, shown in Fig.…”

“…The application of evaporation can be demonstrated for the crystal growth of RuS 2 . − A boomerang-shaped silica glass tube (made by an oxygen torch) was used as a reaction vessel, as shown in Figure a. A tellurium or selenium melt containing a small amount of ruthenium or RuS 2 was placed in the left part of the vessel (growth zone) at 920 °C; the solvent gradually evaporated and condensed at the right end of the ampule at 900 °C.…”

Growth of Transition-Metal Dichalcogenides by Solvent Evaporation Technique

“…3f). It is likely that the temperature increase or increase in total amount of the melt allows to obtain crystals larger in size [17][18][19]. Similarly, low rhenium solubility did not allow obtaining crystals in a similar temperature regime.…”

“…The low solubility of ruthenium in tellurium at 850 °C did not allow us to obtain RuTe 2 crystals greater than 100 μm in size (Figure f). It is likely that a temperature increase or increase in the total amount of the melt would allow obtaining crystals that are larger in size. − Similarly, low rhenium solubility did not allow obtaining crystals in a similar temperature regime.…”

“…The application of evaporation can be demonstrated for the crystal growth of RuS2 [17,18,19]. A boomerang-shaped silica glass tube (made by oxygen torch) was used as a reaction vessel, shown in Fig.…”

“…The application of evaporation can be demonstrated for the crystal growth of RuS 2 . − A boomerang-shaped silica glass tube (made by an oxygen torch) was used as a reaction vessel, as shown in Figure a. A tellurium or selenium melt containing a small amount of ruthenium or RuS 2 was placed in the left part of the vessel (growth zone) at 920 °C; the solvent gradually evaporated and condensed at the right end of the ampule at 900 °C.…”

Growth of Transition-Metal Dichalcogenides by Solvent Evaporation Technique

“…It is one of the semiconducting transition-metal dichalcogenide (TMDC) materials, with a reported band gap of 1.8 eV [2] and has a pyrite structure [3]. Ruthenium Sulfide, RuS 2 has several possible uses, including its use as a catalyst [4] and as a photoelectrode [5][6][7][8]. However, it is difficult to obtain the crystalline RuS 2 due to several facts, for instance we can obtain RuS 2 only at temperatures greater than 1000 • C. Therefore, obtaining its crystalline structure at low temperatures is practically impossible.…”

Crystal Growth of RuS2 Using a Chemical Vapor Transport Technique and Its Properties

Organometallic Growth of RuS2