A Dihalide–Decahydrate Cluster of [X₂(H₂O)₁₀]^2– in a Supramolecular Architecture of {[Na₂(H₂O)₆(H₂O@TMEQ[6])]·2(C₆H₅NO₃)}X₂(H₂O)₁₀ (TMEQ[6] = α,α′,δ,δ′-Tetramethylcucurbit[6]uril; X = Cl, Br)

A discrete dihalide–decahydrate cluster of [X₂­(H₂O)₁₀]^2– has been observed in a solid-state structure of {[Na₂­(H₂O)₆­(H₂O­@­TMEQ­[6])]·2­(C₆H₅­NO₃)}­X₂­(H₂O)₁₀} (TMEQ[6] = α,α′,δ,δ′-tetra­methyl­cucurbit[6]­uril; X = Cl (<b>1</b>), Br (<b>2</b>)). Its structure can be viewed as a connection of two [X­(H₂O)₃]⁻ clusters with a uudd water tetramer through hydrogen-bonding interactions

A Dihalide–Decahydrate Cluster of [X₂(H₂O)₁₀]^2– in a Supramolecular Architecture of {[Na₂(H₂O)₆(H₂O@TMEQ[6])]·2(C₆H₅NO₃)}X₂(H₂O)₁₀ (TMEQ[6] = α,α′,δ,δ′-Tetramethylcucurbit[6]uril; X = Cl, Br)

A discrete dihalide–decahydrate cluster of [X₂­(H₂O)₁₀]^2– has been observed in a solid-state structure of {[Na₂­(H₂O)₆­(H₂O­@­TMEQ­[6])]·2­(C₆H₅­NO₃)}­X₂­(H₂O)₁₀} (TMEQ[6] = α,α′,δ,δ′-tetra­methyl­cucurbit[6]­uril; X = Cl (<b>1</b>), Br (<b>2</b>)). Its structure can be viewed as a connection of two [X­(H₂O)₃]⁻ clusters with a uudd water tetramer through hydrogen-bonding interactions

A Dihalide–Decahydrate Cluster of [X₂(H₂O)₁₀]^2– in a Supramolecular Architecture of {[Na₂(H₂O)₆(H₂O@TMEQ[6])]·2(C₆H₅NO₃)}X₂(H₂O)₁₀ (TMEQ[6] = α,α′,δ,δ′-Tetramethylcucurbit[6]uril; X = Cl, Br)

A discrete dihalide–decahydrate cluster of [X₂­(H₂O)₁₀]^2– has been observed in a solid-state structure of {[Na₂­(H₂O)₆­(H₂O­@­TMEQ­[6])]·2­(C₆H₅­NO₃)}­X₂­(H₂O)₁₀} (TMEQ[6] = α,α′,δ,δ′-tetra­methyl­cucurbit[6]­uril; X = Cl (<b>1</b>), Br (<b>2</b>)). Its structure can be viewed as a connection of two [X­(H₂O)₃]⁻ clusters with a uudd water tetramer through hydrogen-bonding interactions

A Dihalide–Decahydrate Cluster of [X₂(H₂O)₁₀]^2– in a Supramolecular Architecture of {[Na₂(H₂O)₆(H₂O@TMEQ[6])]·2(C₆H₅NO₃)}X₂(H₂O)₁₀ (TMEQ[6] = α,α′,δ,δ′-Tetramethylcucurbit[6]uril; X = Cl, Br)

A discrete dihalide–decahydrate cluster of [X₂­(H₂O)₁₀]^2– has been observed in a solid-state structure of {[Na₂­(H₂O)₆­(H₂O­@­TMEQ­[6])]·2­(C₆H₅­NO₃)}­X₂­(H₂O)₁₀} (TMEQ[6] = α,α′,δ,δ′-tetra­methyl­cucurbit[6]­uril; X = Cl (<b>1</b>), Br (<b>2</b>)). Its structure can be viewed as a connection of two [X­(H₂O)₃]⁻ clusters with a uudd water tetramer through hydrogen-bonding interactions

A Dihalide–Decahydrate Cluster of [X₂(H₂O)₁₀]^2– in a Supramolecular Architecture of {[Na₂(H₂O)₆(H₂O@TMEQ[6])]·2(C₆H₅NO₃)}X₂(H₂O)₁₀ (TMEQ[6] = α,α′,δ,δ′-Tetramethylcucurbit[6]uril; X = Cl, Br)

A discrete dihalide–decahydrate cluster of [X₂­(H₂O)₁₀]^2– has been observed in a solid-state structure of {[Na₂­(H₂O)₆­(H₂O­@­TMEQ­[6])]·2­(C₆H₅­NO₃)}­X₂­(H₂O)₁₀} (TMEQ[6] = α,α′,δ,δ′-tetra­methyl­cucurbit[6]­uril; X = Cl (<b>1</b>), Br (<b>2</b>)). Its structure can be viewed as a connection of two [X­(H₂O)₃]⁻ clusters with a uudd water tetramer through hydrogen-bonding interactions

A Dihalide–Decahydrate Cluster of [X₂(H₂O)₁₀]^2– in a Supramolecular Architecture of {[Na₂(H₂O)₆(H₂O@TMEQ[6])]·2(C₆H₅NO₃)}X₂(H₂O)₁₀ (TMEQ[6] = α,α′,δ,δ′-Tetramethylcucurbit[6]uril; X = Cl, Br)

A discrete dihalide–decahydrate cluster of [X₂­(H₂O)₁₀]^2– has been observed in a solid-state structure of {[Na₂­(H₂O)₆­(H₂O­@­TMEQ­[6])]·2­(C₆H₅­NO₃)}­X₂­(H₂O)₁₀} (TMEQ[6] = α,α′,δ,δ′-tetra­methyl­cucurbit[6]­uril; X = Cl (<b>1</b>), Br (<b>2</b>)). Its structure can be viewed as a connection of two [X­(H₂O)₃]⁻ clusters with a uudd water tetramer through hydrogen-bonding interactions

A Dihalide–Decahydrate Cluster of [X₂(H₂O)₁₀]^2– in a Supramolecular Architecture of {[Na₂(H₂O)₆(H₂O@TMEQ[6])]·2(C₆H₅NO₃)}X₂(H₂O)₁₀ (TMEQ[6] = α,α′,δ,δ′-Tetramethylcucurbit[6]uril; X = Cl, Br)

A discrete dihalide–decahydrate cluster of [X₂­(H₂O)₁₀]^2– has been observed in a solid-state structure of {[Na₂­(H₂O)₆­(H₂O­@­TMEQ­[6])]·2­(C₆H₅­NO₃)}­X₂­(H₂O)₁₀} (TMEQ[6] = α,α′,δ,δ′-tetra­methyl­cucurbit[6]­uril; X = Cl (<b>1</b>), Br (<b>2</b>)). Its structure can be viewed as a connection of two [X­(H₂O)₃]⁻ clusters with a uudd water tetramer through hydrogen-bonding interactions