Controlled synthesis of uniform hollow polypyrrole microcapsules by a cosolvent approach

Hsieh, Tsang-Yen; Hung, Pei Sung; Wang, Chuan Jyun; Wu, Pu Wei

doi:10.1007/s42452-019-0332-8

Cited by 5 publications

(3 citation statements)

References 33 publications

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“…26 At the same time, the N-H stretching vibration peak at 3500-3550 cm −1 appears in the infrared spectra of PS@PPy and PS@PPy-Cu-MOF-5, while the peak in MOF-5 can't be found, indicating that PS@PPy was successfully loaded on the surface of Cu-MOF-5, and it was consistent with the results in the SEM image. 27 The elemental composition and valence state of the Cu/N-C composite were studied by XPS, and the results are shown in Figs. S1 and 3d 31,32 The peak of pyrrole-N at 400.2 eV can be found in the high-resolution XPS spectrum of N 1s.…”

Section: Resultsmentioning

confidence: 99%

MOF-derived Cu/N–C Composite Based Electrochemical Sensor for Simultaneous Detection of Catechol and Hydroquinone

Wang

Liu

Zhang

et al. 2023

J. Electrochem. Soc.

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Cu/N-C derived from MOF composites were synthesized and characterized by scanning electron microscopy, X-ray diffraction, Fourier transform infrared spectroscopy, X-ray photoelectron spectroscopy, and electrochemical impedance spectroscopy, which was modified on the glassy carbon electrode (GCE) to construct a novel electrochemical sensor (Cu/N-C/GCE). Due to the good electrical conductivity and abundant catalytic active sites of Cu/N-C, Cu/N-C/GCE exhibited excellent electrocatalytic performance for catechol (CC) and hydroquinone (HQ) with the oxidation peak potential difference of 112 mV. The proposed sensor could realize the simultaneous detection of CC and HQ successfully. Under optimal conditions, the redox peak currents of both CC and HQ have good linear relationship with their concentrations in the ranges of 0.50-100.00 μM and 0.50-150.00 μM with the detection limits for CC and HQ of 0.12 and 0.09 μM, respectively. At the same time, the sensor exhibits good stability, reproducibility and selectivity in the analysis of practical samples.

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Section: Resultsmentioning

confidence: 99%

MOF-derived Cu/N–C Composite Based Electrochemical Sensor for Simultaneous Detection of Catechol and Hydroquinone

Wang

Liu

Zhang

et al. 2023

J. Electrochem. Soc.

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“…The difference in diameter between the PS and PS@PPyNH 2 microspheres was 46 nm, indicating a surface overcoat of PPyNH 2 with a thickness of 23 nm. We note that in our previous work on synthesizing uniform PS@PPy microspheres from a water/ethanol mixture, we determined an ethanol volume of 7% to be the optimal ratio for producing uniform PS@PPy microspheres [47].…”

Section: Resultsmentioning

confidence: 99%

“…Following the removal of excess water, a powdery mixture of a dark green color (PS@PPyNH 2 microspheres) was collected. For reference purposes, we also synthesized uniform PS@PPy microspheres for IrO 2 deposition [47]. This control sample was used to distinguish the effect of functionalized PPy for anchoring IrO 2 nanoparticles.…”

Section: Synthesis Of Ps@ppynh 2 Microspheresmentioning

confidence: 99%

Synthesis of IrO₂ decorated core–shell PS@PPyNH₂ microspheres for bio-interface application

Hsieh¹,

Hung²,

Wang³

et al. 2020

Nanotechnology

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In this paper, an effective approach is demonstrated for the fabrication of IrO 2 -decorated polystyrene@functionalized polypyrrole (core@shell; PS@PPyNH 2 ) microspheres. The synthesis begins with the preparation of monodispersive PS microspheres with a diameter of 490 nm, by a process of emulsifier-free emulsion polymerization, followed by a copolymerization process involving pyrrole and PyNH 2 monomers in a PS microsphere aqueous suspension, to produce uniform PS@PPyNH 2 microspheres with a diameter of 536 nm. The loading of 2 nm IrO 2 nanoparticles onto the PS@PPyNH 2 microspheres can be easily adjusted by tuning the pH value of the IrO 2 colloidal solution and the PS@PPyNH 2 suspension. At pH 4, we successfully obtain IrO 2 -decorated PS@PPyNH 2 microspheres via electrostatic attraction and hydrogen bonding simultaneously between the negatively-charged IrO 2 nanoparticles and the positively-charged PS@PPyNH 2 microspheres. These IrO 2 -decorated PS@PPyNH 2 microspheres exhibit a characteristic cyclic voltammetric profile, similar to that of an IrO 2 thin film. The charge storage capacity is 5.19 mA cm −2 , a value almost five times greater than that of PS@PPyNH 2 microspheres. In addition, these IrO 2 -decorated PS@PPyNH 2 microspheres exhibit excellent cell viability and biocompatibility.

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Effects of polymerization oxidants on the fabrication of electrospun PPy/WO3 composites

Wong

Wong²,

Ang³

et al. 2023

J Mater Sci: Mater Electron

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Controlled synthesis of uniform hollow polypyrrole microcapsules by a cosolvent approach

Cited by 5 publications

References 33 publications

MOF-derived Cu/N–C Composite Based Electrochemical Sensor for Simultaneous Detection of Catechol and Hydroquinone

MOF-derived Cu/N–C Composite Based Electrochemical Sensor for Simultaneous Detection of Catechol and Hydroquinone

Synthesis of IrO₂ decorated core–shell PS@PPyNH₂ microspheres for bio-interface application

Effects of polymerization oxidants on the fabrication of electrospun PPy/WO3 composites

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Controlled synthesis of uniform hollow polypyrrole microcapsules by a cosolvent approach

Cited by 5 publications

References 33 publications

MOF-derived Cu/N–C Composite Based Electrochemical Sensor for Simultaneous Detection of Catechol and Hydroquinone

MOF-derived Cu/N–C Composite Based Electrochemical Sensor for Simultaneous Detection of Catechol and Hydroquinone

Synthesis of IrO2 decorated core–shell PS@PPyNH2 microspheres for bio-interface application

Effects of polymerization oxidants on the fabrication of electrospun PPy/WO3 composites

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Synthesis of IrO₂ decorated core–shell PS@PPyNH₂ microspheres for bio-interface application