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Your search keyword '"Song, Ji-Ming"' showing total 33 results
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33 results on '"Song, Ji-Ming"'

27. Raising the Thermoelectric Performance in Pb/In-Codoped Bicuseo by Alleviating the Contradiction between Carrier Mobility and Lattice Thermal Conductivity

Author

Liang, Xiaolong, primary, Xu, Rui, additional, Kong, Mengruizhe, additional, Wan, Han, additional, Bai, Wei, additional, Dong, Deming, additional, Xu, Huihong, additional, Li, Qizhu, additional, Li, Zhou, additional, Ge, Binghui, additional, Song, Ji-Ming, additional, and Xiao, Chong, additional

Published
2023
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28. Improvement of Luminescence and Photocatalytic Performance of ZnO:Eu 3+ Nanocrystals Activated by Na + Ions.

Author

Bouslama, Wiem, Nasser, Ramzi, Gelloz, Bernard, Trabelsi, Amira Ben Gouider, Alkallas, Fatemah Homoud, Song, Ji-Ming, Srasra, Ezzeddine, and Elhouichet, Habib

Subjects
LUMINESCENCE, NANOCRYSTALS, X-ray photoelectron spectroscopy, PHOTOLUMINESCENCE, BAND gaps, IONS, RHODAMINE B, ZINC oxide
Abstract

Undoped and codoped (Eu/Na) ZnO nanocrystals (NCs) were successfully manufactured through an economical sol-gel method. X-ray diffraction (XRD) analysis demonstrated pure hexagonal wurtzite structure without secondary phases for all the samples. The size of the NCs was found to decrease with codoping by Eu3+/Na+ which is related to the existence of strain and stress in the lattice. The dominance of the E2(high) mode in Raman spectra indicates the good crystallinity of the samples. The study from the X-ray photoelectron spectroscopy (XPS) shows the successful insertion of both Eu3+ and Na+ ions into the ZnO lattice and the generation of the zinc and oxygen vacancies (Vo) defects. The band gap energy was reduced and the Urbach energy increased with Na+ content, proving the distortion of the lattice. From the photoluminescence (PL) study, the activation of the Eu3+ ions by Na+ ones was evidenced. Longer PL lifetimes were obtained from Eu3+ ions when they were sensitized by Na+, which may be beneficial to several applications. A process of excitation transfer from both the ZnO host and Na+ sensitizers to the Eu3+ ions was evidenced and discussed. As an application, we tested the performances of the prepared NCs as photocatalysts for Rhodamine B photodegradation under sunlight irradiation. The ZnO NCs codoped with 1% Eu/4% Na displayed the best photodegradation rate with a good stability and a high kinetic rate constant k of 0.021 min−1. The photocatalytic mechanism is discussed in terms of longer radiative recombination from Eu3+ and the generated oxygen vacancies. [ABSTRACT FROM AUTHOR]

Published
2023
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31. Promising Cr-Doped ZnO Nanorods for Photocatalytic Degradation Facing Pollution.

Author

H. Alkallas, Fatemah., Ben Gouider Trabelsi, Amira, Nasser, Ramzi, Fernandez, Susana, Song, Ji-Ming, and Elhouichet, Habib

Subjects
PHOTODEGRADATION, NANORODS, ZINC oxide, X-ray photoelectron spectroscopy, ZINC acetate
Abstract

Chromium (Cr)-doped zinc oxide (ZnO) nanorods with wurtzite hexagonal structure were prepared through a thermal decomposition technique. The concentration effect of the Cr doping on the structural, morphological, and optical properties of the ZnO nanorods was established by correlating various measurements: transmission electron microscopy (TEM), photoluminescence (PL), X-ray diffraction (XRD), X-ray photoelectron spectroscopy (XPS) and several UV-visible studies. The obtained nanorods were investigated as photocatalysts for the photodegradation process of methyl orange (MO), under UV-vis light illumination. Different weights and time intervals were studied. A 99.8% photodegradation of MO was obtained after 100 min in the presence of 1 wt.% Cr III acetate hydroxide and zinc acetate dehydrate "ZnO-Cr1". The kinetic rate constant of the reaction was found to be equal to 4.451 × 10−2 min−1 via a pseudo-first order rate model. Scavenger radicals demonstrated the domination of OH • radicals by those of O 2 • − superoxide species during the photodegradation. The interstitial oxygen site Oi is proposed to play a key role in the generation of holes in the valence band under visible irradiation. The ZnO-Cr1 photocatalyst displayed good cycling stability and reusability. [ABSTRACT FROM AUTHOR]

Published
2022
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32. Engineering preparation of the nanocomposite containing CoWO4nanodots and its high electrochemical activities

Author

Nasser, Ramzi, Zhou, Hao, Trabelsi, Amira Ben Gouider, AlKallas, Fatemah Homoud, Elhouichet, Habib, and Song, Ji-Ming

Abstract

Designing hybrid composites electrodes with hierarchical nano-structural features and superb electrochemical performances sites is vital factor for engineering advanced supercapacitors. Herein, a novel nanocomposite from CoWO4nanodots anchored on olive derived activated carbon doped with N and S (OACNS) is successfully prepared via an in-situ hydrothermal process. The well dispersion of the CoWO4nanodots (pseudo-capacitor type) with ca. 7 nm in diameter on the OACNS nanosheets prevents their agglomerations to build hierarchical porous structure with high surface area (162.8 cm2·g−1) and various pores sizes distribution. Noteworthy, through the synergistic effect, the composite shows superb capacitance value of 152 mAh·g−1(0.5 A·g−1) and splendid life cycle of 93.5 % (via 12,000 cycles). Interestingly, an asymmetric CoWO4@OACNS//OACNS hybrid supercapacitor provides excellent specific energy (53.6 Wh·kg−1) at maximum specific power of 650 W·kg−1. Such fascinating electrochemical performance indicates that the proposed CoWO4@OACNS hybrid composite can be exploited as cathode for next generation of energy storage devices.

Published
2023
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33. Hydrothermal design of CoMoO4@CoWO4core-shell heterostructure for flexible all-solid-state asymmetric supercapacitors

Author

Nasser, Ramzi, Wang, Xiao-Lu, Tiantian, Jian, Elhouichet, Habib, and Song, Ji-Ming

Abstract

As electrode material, cobalt-molybdenum oxide (CoMoO4) attracts more attention for energy storage device through its various oxidation states and good electrochemical properties. However, its low conductivity and energy density still hinder its applicability. To integrate its practicability as advanced electrode material in supercapacitor, we chose CoWO4as conductive shell material to boost the conductivity on the core surface. Herein, a kind of novel CoMoO4@CoWO4nanorods core-shell heterostructure is designed with two-step hydrothermal strategy. The CoMoO4nanorods fully covered by CoWO4nanoparticles provides ultrahigh specific surface area of 331.1 m2·g−1. Benefiting from synergistic effect, CoMoO4@CoWO4electrode results superb specific capacitance of 2070 F·g−1at 0.5 A·g−1and marvelous stability behavior of 92% after 10,000 cycles. The charge storage mechanism is dominated by the capacitive contribution. Meaningfully, at 0.5 Aˑg−1, all-solid-state asymmetric CoMoO4@CoWO4//activate carbon supercapcitor device delivers ultrahigh specific energy of 71.8 Wh·kg−1at 354 W·kg−1specific power. Interestingly, two asymmetric devices can illuminate red and green LEDs.

Published
2022
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