期刊
SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY
卷 72, 期 2, 页码 306-311出版社
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.saa.2008.09.014
关键词
Fourier transform infrared; Fourier transform Raman; Quantum chemical calculation at DFT; Metal carboxylate; Fluoroionophore sensor
类别
资金
- NSFC [20473028, 20773051]
- Major State Basic Research Development Program [2007CB808000]
- New Century Excellent Talents in University (NCET)
- Innovative Research Team in University [IRT0422]
The detection of lead ion is very important both in environment and in biological systems because of its toxicity. A fluoroionophore sensor, N-[4(1-pyrene)-butyroyl]-L-tryptophan (PIT), distinguishing Pb2+ from other 12 metal ions and exhibiting a very high sensitivity (0.15 mu M) in aqueous solution, has been reported. The present study describes the spectroscopic clarification of the intrinsic differences of the binding model between PLT with Pb2+ and with other ions. The fluorescent property of solid metal carboxylates reflects a character of the metal complex in solution, which results in a facility to solve problems by using solid sample of complex and vibrational spectroscopy. Both FT-infrared and Raman spectroscopy are employed to clarify the binding model between lead ion and its high sensitive and selective fluoroionophore sensor PIT, and essentially to explain why the metal ions other than Pb2+ cannot response to PLT. The IR spectral data clearly show that a bridging bidentate coordination occurs when PIT is coordinated with Cu2+ and Zn2+; while a chelating bidentate coordination between the carboxyl anion and Pb2+ exists in PLT-Pb, which is a new information beyond the NMR results in previous report. Meanwhile, the present study also indicates a characteristic interaction of lead ion and indole ring as well as the hydrogen bonding between amide groups. Furthermore, the quantum chemical calculations at the DFT level confirm the spectral and structural information of PLT-Pb2+ proposed by experiments. Thus, the type of coordination, the interaction of the indole ring with the metal ion, and the hydrogen bonding between amide groups in PLT-Pb are likely responsible for the high selectivity of PIT to the lead(II) ion. (c) 2008 Elsevier B.V. All rights reserved.
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