4.7 Article

Light-Emitting Redox Polymers for Sensing and Removal-Reduction of Cu(II): Roles of Hydrogen Bonding in Nonconventional Fluorescence

Journal

ACS APPLIED POLYMER MATERIALS
Volume 4, Issue 3, Pages 1643-1656

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acsapm.1c01479

Keywords

intrinsically fluorescent redox polymer; hydrogen bonding in clusteroluminescence; Cu(II)/Cu(I) redox couple; AEE via DFT-RDG; green emission in solution; sensing removal-reduction

Funding

  1. Council of Scientific and Industrial Research (CSIR), Government of India [22(0819)/19/EMR-II]
  2. SERB-DST, Government of India [TAR/2018/000195]

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Intrinsically luminescent multifunctional polymers with unique fluorescence properties were synthesized via free radical polymerization. These polymers can be used for sensitive detection, selective binding, and removal-reduction of Cu(II). The aggregation-enhanced green fluorescence in the polymers is associated with hydrogen bondings and electronic interactions involving specific moieties.
Here, intrinsically luminescent multifunctional n-butyl prop-2-enoate-co-butyl 3-(N-(hydroxymethyl)prop-2-enamido)propanoate-co-N-(hydroxymethyl)prop-2-enamide (NBP-co-BHMPP-co-HMP) luminogens with 1:2, 1:4, 1:8, and 1:20 mole ratios of NBP/HMP are synthesized via free radical polymerization, where the amidic BHMPP comonomer is anchored via N-C coupling of HMP and NBP. The optimum nonconventional fluorescent polymer (NCFP, NBP/HMP = 1:8) is suitable for sensitive detection, selective binding, and removal-reduction of Cu(II). The structures and light-emitting properties of NCFP, NCFP aggregates, Cu(II)-NCFP, and Cu(I)-NCFP; oxygen donor selective coordinations; and removal-reduction of paramagnetic Cu(II) are explored via spectroscopic, microscopic, density functional theory-reduced density gradient, rapid color change under visible light, chromaticity-1931 plots, and electrochemical measurements. The striking aggregation-enhanced green fluorescence is associated with extensive nonconventional and conventional hydrogen bondings in NCFP aggregates and through space electronic interactions involving NBP, HMP, and BHMPP moieties. Here, the Cu(II)/Cu(I) redox couple is confirmed via shifting of E-pc from -1.08/+0.15 to +0.95/+0.16 V; E-pc and E-pa at +0.15 and -0.34/+0.41 V, respectively; green color of Cu(I)-NCFP under visible light; Fourier transform infrared and Cu 2p X-ray photoelectron spectroscopies; and computational studies. The limit of detection, Stern-Volmer constant, redox potentials, and adsorption capacity of NCFP are 3.61 nM/0.229 ppb, 4.27 x 10(3) [M](-1), and +0.15/+0.41/-0.34 V, and 49.41 mg g(-1), respectively.

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