Chalcogenides by Reduction of their Dioxides in Ultra‐Alkaline Media

Albrecht, Ralf; Ruck, Michael

doi:10.1002/anie.202107642

Cited by 18 publications

(37 citation statements)

References 63 publications

(206 reference statements)

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“…At a reactant concentration of 0.6 mol/L, a weak band was found at 253 cm À 1 that increased in intensity with growing amount of starting materials. This symmetrical band is different from the known SeÀ Se vibrations of polyselenide anions observed in hydroflux solutions [13] and occurs in the energy range typical for AsÀ Se bond vibrations. [22] Beside this reduced selenium-and arsenic-containing species, monoselenide and arsenate(V) anions are present in the solution that may be involved in the formation of (As 2 Se 4 ) 4À anions.…”

Section: àcontrasting

confidence: 81%

“…At the lower q (Se) of 1.2, the triselenide K 2 Se 3 forms [13] . In previous experiments with q (Se)=2, colorless solutions containing monoselenide anions were obtained with reactant concentration of 0.25 mol/L with respect to selenium (Equation 1) [13] . In the synthesis of K 4 (As 2 Se 4 ) ⋅ 2H 2 O, a threefold higher reactant concentration was used, resulting in a yellow solution.…”

Section: Synthesismentioning

confidence: 99%

“…Under hydroflux conditions, As 2 O 3 dissolves as arsenate(III), which is able to reduce selenate(IV) to selenide ions (Equation 1). [13] 3…”

Section: Synthesismentioning

confidence: 99%

“…[13] In previous experiments with q(Se) = 2, colorless solutions containing monoselenide anions were obtained with reactant concentration of 0.25 mol/L with respect to selenium (Equation 1). [13] In the synthesis of K 4 (As 2 Se 4 ) • 2H 2 O, a threefold higher reactant concentration was used, resulting in a yellow solution. To characterize the species causing the color change, experiments were performed with different reactant concentrations and analyzed by Raman spectroscopy (Figure S3).…”

Section: àmentioning

confidence: 99%

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Formation of Tetraselenodiarsenate(II) Anions in Ultra‐alkaline Medium

Albrecht

Jach

Ruck

2021

Zeitschrift anorg allge chemie

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SeO2 and As2O3 were reacted at 200 °C in in a potassium hydroxide hydroflux with a molar water‐base ratio n(H2O) : n(KOH)=1.8. Arsenate(III) disproportionates under these conditions into arsenate(V) and elemental arsenic. The reduction also yielded tetraselenodiarsenate(II) anions, which turned the solution yellow and precipitated at room temperature as plate‐shaped crystals of K4(As2Se4) ⋅ 2H2O. The unexpected redox reaction as well as the formation of a hygroscopic compound in an aqueous solution are attributed to a strongly reduced activity of water in ultra‐alkaline media. K4(As2Se4) ⋅ 2H2O crystallizes in the orthorhombic space group Cmce with lattice parameters a=784.78(3), b=1027.76(4) and c=1750.63(7) pm at 100 K. The (As2Se4)4− anion has C2h symmetry and an As−As bond length of 245.3(1) pm. The water molecules are part of infinite zig‐zag chains ∞1 [K(H2O)2/2]+ and form hydrogen bonds to neighboring selenium atoms.

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Section: àcontrasting

confidence: 81%

Section: Synthesismentioning

confidence: 99%

“…Under hydroflux conditions, As 2 O 3 dissolves as arsenate(III), which is able to reduce selenate(IV) to selenide ions (Equation 1). [13] 3…”

Section: Synthesismentioning

confidence: 99%

Section: àmentioning

confidence: 99%

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Formation of Tetraselenodiarsenate(II) Anions in Ultra‐alkaline Medium

Albrecht

Jach

Ruck

2021

Zeitschrift anorg allge chemie

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“…Gleichung (4) fasst die Reduktion der Dichalkogenid-Anionen zusammen: [27,28] Rçntgenbeugungsexperimente an schwarzen Einkristallen von K 2 Se 3 (Cmc2 1 )u nd K 2 Te 3 (Pnma)b estätigten die bekannten Strukturen. [4,5] [58] Angewandte Chemie Forschungsartikel 22746 www.angewandte.de Se-Te-Se Winkel von 97.6(1)8 8.D as (TeSe 2 ) 2À -Anion wurde bereits (2,2,2-crypt-K) 2 (TeSe 2 )•en (en = Ethylendiamin) [29] und [Mn(en) 3 ](TeSe 2 ) [30] beobachtet und weist darin Te -Se-Bindungslängen von etwa 250 pm und 250.3(1) pm sowie Se-Te -Se Winkel von 111.3(1)8 8 bzw.1 02.6(1)8 8 auf.I nd iesen Strukturen sind die (TeSe 2 ) 2À -Anionen weit voneinander getrennt und interagieren darüber hinaus mit den Wasserstoffatomen der organischen Liganden. Die grçßeren Se-Te-Se Winkel stehen im Einklang mit den kürzeren Te -Se Bindungslängen, die die Abstoßung zwischen den terminalen Atomen erhçhen.…”

Section: àunclassified

Chalkogenide durch Reduktion ihrer Dioxide in ultra‐alkalischen Medien

Albrecht

Ruck

2021

Angewandte Chemie

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Aus der Reaktion von Chalkogendioxiden ChO2 (Ch=Se, Te) mit As2O3 in einem 30‐molaren KOH‐Hydroflux bei etwa 200 °C wurden Kristalle von Kaliumtrichalkogeniden K2Ch3 mit Abmessungen bis zu 2 cm erhalten. Arsentrioxid wirkt hierbei als Elektronendonor und wird zu Arsenat(V) oxidiert. Setzt man SeO2 und TeO2 zusammen ein, so bildet sich das neue Heterochalkogenid‐Anion (TeSe2)2−. Die Verbindung K2TeSe2 kristallisiert isotyp zu K2S3 und K2Se3. Sowohl die unerwartete Redoxreaktion als auch die Fällung hygroskopischer Verbindungen aus einer wässrigen Lösung werden auf eine stark reduzierte Aktivität des Wassers zurückgeführt. Die Reaktionen wurden mit Raman‐ und UV/Vis‐Spektroskopie untersucht. Je nach As2O3‐Konzentration dominieren in den Lösungen farblose Monochalkogenide Ch2− oder orangefarbene Se22− und violette Te22− Anionen.

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Sr(Ag_1−xLi_x)₂Se₂ and [Sr₃Se₂][(Ag_1−xLi_x)₂Se₂] Tunable Direct Band Gap Semiconductors

et al. 2023

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Synthesizing solids in molten fluxes enables the rapid diffusion of soluble species at temperatures lower than in solid-state reactions, leading to crystal formation of kinetically stable compounds. In this study, we demonstrate the effectiveness of mixed hydroxide and halide fluxes in synthesizing complex Sr/Ag/Se in mixed LiOH/LiCl. We have accessed a series of twodimensional Sr(Ag 1À x Li x ) 2 Se 2 layered phases. With increased LiOH/LiCl ratio or reaction temperature, Li partially substituted Ag to form solid solutions of Sr(Ag 1À x Li x ) 2 Se 2 with x up to 0.45. In addition, a new type of intergrowth compound [Sr 3 Se 2 ][(Ag 1À x Li x ) 2 Se 2 ] was synthesized upon further reaction of Sr-(Ag 1À x Li x ) 2 Se 2 with SrSe. Both Sr(Ag 1À x Li x ) 2 Se 2 and [Sr 3 Se 2 ][(Ag 1À x Li x ) 2 Se 2 ] exhibit a direct band gap, which increases with increasing Li substitution (x). Therefore, the band gap of Sr(Ag 1À x Li x ) 2 Se 2 can be precisely tuned via fine-tuning x that is controlled by only the flux ratio and temperature.

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Chalcogenides by Reduction of their Dioxides in Ultra‐Alkaline Media

Cited by 18 publications

References 63 publications

Formation of Tetraselenodiarsenate(II) Anions in Ultra‐alkaline Medium

Formation of Tetraselenodiarsenate(II) Anions in Ultra‐alkaline Medium

Chalkogenide durch Reduktion ihrer Dioxide in ultra‐alkalischen Medien

Sr(Ag_1−xLi_x)₂Se₂ and [Sr₃Se₂][(Ag_1−xLi_x)₂Se₂] Tunable Direct Band Gap Semiconductors

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Chalcogenides by Reduction of their Dioxides in Ultra‐Alkaline Media

Cited by 18 publications

References 63 publications

Formation of Tetraselenodiarsenate(II) Anions in Ultra‐alkaline Medium

Formation of Tetraselenodiarsenate(II) Anions in Ultra‐alkaline Medium

Chalkogenide durch Reduktion ihrer Dioxide in ultra‐alkalischen Medien

Sr(Ag1−xLix)2Se2 and [Sr3Se2][(Ag1−xLix)2Se2] Tunable Direct Band Gap Semiconductors

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Sr(Ag_1−xLi_x)₂Se₂ and [Sr₃Se₂][(Ag_1−xLi_x)₂Se₂] Tunable Direct Band Gap Semiconductors