A silver-alkynyl cluster encapsulating a fluorescent polyoxometalate core: enhanced emission and fluorescence modulationElectronic supplementary information (ESI) available: Crystal data. CCDC 1039036 for 1. For ESI and crystallographic data in CIF or other electronic format see DOI: 10.1039/c4dt03826f

• Main Authors: Song, Chao-Yu, Chai, Dong-Feng, Zhang, Rui-Ren, Liu, Hong, Qiu, Yun-Feng, Guo, Hua-Dong, Gao, Guang-Gang
• Format: Journal Article
• Language: English
• Published: 17.02.2015
• ISSN: 1477-9226; 1477-9234
• DOI: 10.1039/c4dt03826f

A new silver( i )-alkynyl cluster with a [Eu(W 5 O 18 ) 2 ] 9− polyoxoanionic core of [Ag 42 {Eu(W 5 O 18 ) 2 }( t BuC&z.tbd;C) 28 Cl 4 ] [OH]·H 2 O ( 1 ) has been designed and synthesized. The [Eu(W 5 O 18 ) 2 ] 9− polyoxoanion acts as a template to induce the formation of the surrounding 42-core Ag( i ) cage. Due to the hydrophobic silver( i )-alkynyl shell, 1 features an unusual fluorescence enhancement as compared to the precursor of the [Eu(W 5 O 18 ) 2 ] 9− polyoxoanionic core. Interestingly, the silver ions in the shell silver( i )-alkynyl cage can only be reduced to silver atoms by irradiation with high energy UV light (2 kW). Upon high UV irradiation, fluorescence quenching of 1 has been observed. Moreover, the solution fluorescence of 1 can be modulated by addition of S 2− ions into the system, which also leads to the fluorescence quenching phenomenon. The successful synthesis of 1 demonstrates a new route to the detection of high energy UV irradiation or S 2− ions by elaborate design of fluorescence quenching of silver( i )-alkynyl clusters. A fluorescent polyoxometalate-based silver( i )-alkynyl cluster exhibits sensitivity towards high energy UV irradiation and selectivity for detection of S 2− .