Anion-Templated Nanosized Silver Alkynyl Clusters: Cluster Engineering and Solution Behavior

Abstract

Assembly of nanosized polynuclear metal clusters from simple building blocks usually involves complicated self-organization processes and thus is a long-standing challenge. Here, we demonstrate the controllable assembly, single-crystal structures and solution behaviors of four molecular assemblies based on nanosized silver alkynyl clusters, formulated as {[(CrO₄ )₂ Cl@Ag₄₂ (PhC≡C)₃₄ (CF₃ COO)₂ ]⋅CF₃ COO} (1), {(NH₄ )[(CrO₄ )₂ Cl@Ag₄₂ (PhC≡C)₃₄ (CrO₄ )(H₂ O)₂ ]⋅2BF₄ ⋅CH₃ OH}_n (2), [(CrO₄ )@Ag₂₂ (PhC≡C)₁₆ (CF₃ SO₃ )₄ ]_n (3), and {[(CrO₄ )₂ @Ag₃₁ (PhC≡C)₂₂ (CF₃ SO₃ )₄ ]⋅CF₃ SO₃ ⋅2CH₃ OH⋅H₂ O}_n (4). In the presence of concomitant CrO₄^2- and Cl^- templates, we could isolate a discrete cluster 1 and a polymeric chain-like compound 2 by using different silver salts. Both 1 and 2 have a similar 42-metallic cage, which traps two CrO₄^2- and one Cl^- as anion templates. Using sole CrO₄^2- template, 3 and 4 were simultaneously isolated in a one-pot reaction. Both of them are 1D chain structures based on single CrO₄^2- templated Ag₁₈ and double CrO₄^2- templated Ag₃₀ clusters, respectively. HR-ESI-MS was used to study the solution behaviors of 1-4. This work has the following purposes: i) it presents the cluster engineering concept used in the assembly of polynuclear silver alkynyl clusters; ii) it exemplifies template effects from hetero and homo anions; and iii) it provides a controllable way to achieve assembly of silver alkynyl clusters.

Keywords: anion template; cluster engineering; silver; solution behavior.