2021
DOI: 10.1021/jacs.1c05107
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New Compounds and Phase Selection of Nickel Sulfides via Oxidation State Control in Molten Hydroxides

Abstract: Molten salts are promising reaction media candidates for the discovery of novel materials; however, they offer little control over oxidation state compared to aqueous solutions. Here, we demonstrated that when two hydroxides are mixed, their melts become fluxes with tunable solubility, which are surprisingly powerful solvents for ternary chalcogenides and offer effective paths for crystal growth to new compounds. We report that precise control of the oxidation state of Ni is achievable in mixed molten LiOH/KOH… Show more

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Cited by 13 publications
(22 citation statements)
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“…[22] For example, the tetrahedral AgÀ Se and LiÀ Se bond lengths are approximately 2.771(1) Å [23] and 2.6002 Å [24] in Ba 2 Ag 2 Se 2 (Se 2 ) and Li 2 Se, respectively. In comparison, the average bond lengths between the Ag L À 1 i and Se sites for Sr(Ag 1À x Li x ) 2 Se 2 were 2.6937(9) Å and 2.7401(6) Å for x = 0.438(6) and 0.077 (6), respectively. The AgÀ Se bond length for SrAg 2 Se 2 was 2.7329(4) Å at 100 K. Although the AgÀ Se bond lengths were the same within the error for each Sr(Ag 1À x Li x ) 2 Se 2 , the tetrahedral angles were different, with θ 1 smaller than θ 2 (Figure 2d).…”
Section: Resultsmentioning
confidence: 92%
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“…[22] For example, the tetrahedral AgÀ Se and LiÀ Se bond lengths are approximately 2.771(1) Å [23] and 2.6002 Å [24] in Ba 2 Ag 2 Se 2 (Se 2 ) and Li 2 Se, respectively. In comparison, the average bond lengths between the Ag L À 1 i and Se sites for Sr(Ag 1À x Li x ) 2 Se 2 were 2.6937(9) Å and 2.7401(6) Å for x = 0.438(6) and 0.077 (6), respectively. The AgÀ Se bond length for SrAg 2 Se 2 was 2.7329(4) Å at 100 K. Although the AgÀ Se bond lengths were the same within the error for each Sr(Ag 1À x Li x ) 2 Se 2 , the tetrahedral angles were different, with θ 1 smaller than θ 2 (Figure 2d).…”
Section: Resultsmentioning
confidence: 92%
“…It is likely that Ag + can be reduced to Ag 0 by Se 2À when the basicity is high enough, similar to our observations of reactions between Ni 2 + and S 2À in mixed KOH/LiOH, in which high basicity results in metallic Ni. [6] These findings described above suggest that reactions in LiOH/LiCl fluxes exhibit solution-based reaction characteristics, such as pH-dependent oxidation states in aqueous solutions. [17] We conducted differential thermal analysis (DTA) to study the stability of Sr(Ag 1À x Li x ) 2 Se 2 and explain why direct combination reactions were unsuccessful.…”
Section: Resultsmentioning
confidence: 93%
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“…17,18 In the recent literature, the molten salt method (MSM) is a relatively simple and economical method, in which molten salt (MS) is considered as a promising reaction medium candidate for preparing various inorganic materials. [19][20][21] Recently, various highcrystallinity TMS nanosheets were produced using the LiCl/KCl molten salt; however, the MS with high melting point leads to poor electrochemical performance and limits the large-scale industrial application of the catalyst because of its high energy consumption. 22 Compared with other high melting point salts, KSCN, with a low melting point of 175 °C, can exist stably in air.…”
Section: Introductionmentioning
confidence: 99%