4.8 Article

Disordered Assembly of Donors and Acceptors on Layered Double Hydroxides for High-Efficiency Chemiluminescence Resonance Energy Transfer

期刊

ANALYTICAL CHEMISTRY
卷 93, 期 21, 页码 7724-7731

出版社

AMER CHEMICAL SOC
DOI: 10.1021/acs.analchem.1c01136

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资金

  1. National Natural Science Foundation of China [21974008, 21804006, 21804094, 21521005]
  2. Beijing Natural Science Foundation [2212013]
  3. Fundamental Research Funds for the Central Universities [buctrc201820]

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High-efficiency chemiluminescence (CL) resonance energy transfer (CRET) can be achieved by shortening the donor-acceptor distance and/or improving the luminescence efficiency of CRET acceptors. The AIE-active fluorophore adsorbed on the surface of LDHs exhibited high-efficiency luminescence, while LDHs can further adsorb ONOO-. The proposed CL system successfully detected NaNO2 in a concentration range from 1.0 to 100 mu M.
High-efficiency chemiluminescence (CL) resonance energy transfer (CRET) can be obtained by shortening the donor-acceptor distance and/or improving the luminescence efficiency of CRET acceptors. However, careful design and stringent experimental conditions are usually required for the ordered assembly of CRET acceptors on support materials to avoid aggregation-caused quenching problems. In this work, an aggregation-induced emission (AIE)-active fluorophore was disorderly adsorbed on the surface of layered double hydroxides (LDHs), which could exhibit high-efficiency luminescence. On the other hand, the positively charged LDHs can further adsorb peroxynitrite (ONOO-) on the surface of LDHs. Therefore, the LDH-supported AIE fluorophore could dramatically amplify weak CL signals from ONOO- donors as a result of ultra-high CRET efficiency by coupling the shorter donor-acceptor distance with efficient CRET acceptors. The proposed CL system has been successfully applied for the detection of NaNO2 in the concentration range from 1.0 to 100 mu M with a detection limit as low as 0.5 mu M. Satisfactory recoveries (98-106%) and good accuracy were achieved for sausage samples. Our success will open new avenues for the convenient design of high-efficiency CRET systems.

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