Die Kristallstrukturen von KNdTe₄, RbPrTe₄ und RbNdTe₄ — Untersuchungen zur thermischen Stabilität von KNdTe₄ sowie Bemerkungen zu einigen anderen Vertretern der Zusammensetzung ALnTe₄ (A = K, Rb, Cs und Ln = Seltenerd‐Metall)

Abstract: Von den Verbindungen der Zusammensetzung ALnQ4 (A = Na, K, Rb, Cs, mit Ln = Seltenerd‐Metall und mit Q = S, Se und Te) konnten die Strukturen der drei neuen Telluride KNdTe4, RbPrTe4 und RbNdTe4 durch Einkristallstrukturanalyse und des weiteren die der drei neuen Telluride KCeTe4, KPrTe4 und CsNdTe4 durch röntgenographische Untersuchungen an Pulvern bestimmt werden. Alle sechs neuen Verbindungen kristallisieren isotyp zu KCeSe4. Kennzeichnend für die Kristallstruktur der genannten Verbindungen sind Schichten m… Show more

“…Ternary alkali metal/rare earth metal/chalcogenide compounds (A/RE/Q, Q = S, Se, Te) are fascinating for their complexity and beauty. Up until now, eight types of structures are known and are listed according to their A/RE/Q stoichiometries as following, 1:1:2 (including about 40 compounds, e.g., RbLaSe 2 ), − 3:7:12 (adopted by roughly 10 compounds, e.g., Rb 3 Yb 7 Se 12 ), − 1:3:5 (only 2 examples of CsEr 3 Se 5 and CsHo 3 Te 5 ), 3:11:18 (only found in Cs 3 Tm 11 Te 18 ), 1:5:8 (RbSc 5 Te 8 ), 2:24:36 (as found in a Tm fractional occupied example, K 2 Tm 23.33 S 36 ), 1:1:4 (including 12 compounds, e.g., KCeSe 4 ), − and 1:3:8 (including 4 compounds, e.g., KPr 3 Te 8 ). ,, Note that 1:1:4 and 1:3:8 types of compounds possess Q–Q bonding interactions and are thus excluded from the structure discussion below. Another exception is K 2 Tm 23.33 S 33 in which two types of building units are found as TmS 6 and TmS 7 .…”

Diverse Closed Cavities in Condensed Rare Earth Metal–Chalcogenide Matrixes: Cs[Lu₇Q₁₁] and (ClCs₆)[RE₂₁Q₃₄] (RE = Dy, Ho; Q = S, Se, Te)

“…Ternary alkali metal/rare earth metal/chalcogenide compounds (A/RE/Q, Q = S, Se, Te) are fascinating for their complexity and beauty. Up until now, eight types of structures are known and are listed according to their A/RE/Q stoichiometries as following, 1:1:2 (including about 40 compounds, e.g., RbLaSe 2 ), − 3:7:12 (adopted by roughly 10 compounds, e.g., Rb 3 Yb 7 Se 12 ), − 1:3:5 (only 2 examples of CsEr 3 Se 5 and CsHo 3 Te 5 ), 3:11:18 (only found in Cs 3 Tm 11 Te 18 ), 1:5:8 (RbSc 5 Te 8 ), 2:24:36 (as found in a Tm fractional occupied example, K 2 Tm 23.33 S 36 ), 1:1:4 (including 12 compounds, e.g., KCeSe 4 ), − and 1:3:8 (including 4 compounds, e.g., KPr 3 Te 8 ). ,, Note that 1:1:4 and 1:3:8 types of compounds possess Q–Q bonding interactions and are thus excluded from the structure discussion below. Another exception is K 2 Tm 23.33 S 33 in which two types of building units are found as TmS 6 and TmS 7 .…”

Diverse Closed Cavities in Condensed Rare Earth Metal–Chalcogenide Matrixes: Cs[Lu₇Q₁₁] and (ClCs₆)[RE₂₁Q₃₄] (RE = Dy, Ho; Q = S, Se, Te)

“…Among ternary alkali-metal rare-earth tellurides there are four different compositions that have been reported: ALnTe 2 [1][2][3][4], A 3 Ln 7 Te 12 [5], ALnTe 4 [6][7][8][9], and ALn 3 Te 8 [9][10][11]. The ALnTe 2 structures have no Te-Te bonds, and hence comprise A/Ln/Te ions in formal oxidation states 1+/3+/2À.…”

Syntheses and structures of CsHo3Te5 and Cs3Tm11Te18 and the electronic structure of CsHo3Te5

Chalcogenides: Solid‐State Chemistry