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    Journals >Journal of Inorganic Materials >Volume 34 >Issue 6 >Page 633 > Article
    • Journal of Inorganic Materials
    • Vol. 34, Issue 6, 633 (2019)
    A New Polyethylene Composite Material Based on Nano Silver Particels Loaded Graphene Oxide
    Feng ZHANG1、2, Kai-Li ZHANG1, Ming-Ming ZHOU2, Chao CHEN3, Zhi-Wei CAI3, Guo-Hui WEI4, Xing-Mao JIANG4、5, Cheng ZHANG1, RUHLMANN Laurent6, and Yao-Kang LÜ1、*
    Author Affiliations
  • 1School of Chemical Engineering, Zhejiang University of Technology, Hangzhou 310014, China
  • 2The Children's Hospital, Zhejiang University School of Medicine, Hangzhou 310052, China
  • 3Zhejiang Institute for Food and Drug Control, Hangzhou, 310052, China
  • 4Changzhou Yingzhong Nano Technology Co., Ltd, Changzhou 213000, China
  • 5School of Chemical Engineering & Pharmacy, Wuhan Institute of Technology, Wuhan 430205, China;
  • 6Institut de Chimie, Université de Strasbourg, Strasbourg 67081, France;
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    DOI: 10.15541/jim20180372 Cite this Article
    Feng ZHANG, Kai-Li ZHANG, Ming-Ming ZHOU, Chao CHEN, Zhi-Wei CAI, Guo-Hui WEI, Xing-Mao JIANG, Cheng ZHANG, RUHLMANN Laurent, Yao-Kang LÜ. A New Polyethylene Composite Material Based on Nano Silver Particels Loaded Graphene Oxide[J]. Journal of Inorganic Materials, 2019, 34(6): 633 Copy Citation Text show less
    Schematic illustration for the preparation of AgNPs@GO
    1. Schematic illustration for the preparation of AgNPs@GO
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    Photographs of AgNPs@GO powder (a) and its sol (b)
    2. Photographs of AgNPs@GO powder (a) and its sol (b)
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    TEM (a, b) and HRTEM (c) images of AgNPs@GO, and statistical result of the particle size distribution of AgNPs loaded on AgNPs@GO (d)
    3. TEM (a, b) and HRTEM (c) images of AgNPs@GO, and statistical result of the particle size distribution of AgNPs loaded on AgNPs@GO (d)
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    XRD patterns of GO and AgNPs@GO(a); XPS C1s spectra of GO (b); XPS spectra C1s (c), O1s (d), Ag3d(e) of AgNPS@GO, and AES energy spectrum (f) of Ag
    4. XRD patterns of GO and AgNPs@GO(a); XPS C1s spectra of GO (b); XPS spectra C1s (c), O1s (d), Ag3d(e) of AgNPS@GO, and AES energy spectrum (f) of Ag
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    Photograph of inhibition zone of Pseudomonas aeruginosa ((1) paper coated with AgNPs@GO, (2) paper coated with GO, (3) paper coated with AgNPs) (a) and results of experimental data of inhibition zone of AgNPs@GO, GO and AgNPs (b)
    5. Photograph of inhibition zone of Pseudomonas aeruginosa ((1) paper coated with AgNPs@GO, (2) paper coated with GO, (3) paper coated with AgNPs) (a) and results of experimental data of inhibition zone of AgNPs@GO, GO and AgNPs (b)
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    Photos (a) and turbidity (b) of the bacteria liquid in each test tube at different time (The upper limit of turbidity measurement is 4 MCF) and its counting curves of the bacterial culture on the nutrient agar plate at different time (c)
    6. Photos (a) and turbidity (b) of the bacteria liquid in each test tube at different time (The upper limit of turbidity measurement is 4 MCF) and its counting curves of the bacterial culture on the nutrient agar plate at different time (c)
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    Inhibition of Pseudomonas aeruginosa growth test results
    7. Inhibition of Pseudomonas aeruginosa growth test results
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    The results of water vapor transmission rate experiments
    8. The results of water vapor transmission rate experiments
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    The results of the dissolution tests
    9. The results of the dissolution tests
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    UV-Vis spectra of AgNPs、GO and AgNPs@GO aqueous dispersions
    S1. UV-Vis spectra of AgNPs、GO and AgNPs@GO aqueous dispersions
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    UV-Vis spectra of PE, 0.48wt%-AgNPs/PE, 2.88wt% -AgNPs/PE, and 0.48wt%-AgNPs@GO/PE
    S2. UV-Vis spectra of PE, 0.48wt%-AgNPs/PE, 2.88wt% -AgNPs/PE, and 0.48wt%-AgNPs@GO/PE
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    IR spectra of PE, 0.48wt%-AgNPs/PE, 2.88wt%- AgNPs/PE, and 0.48wt%-AgNPs@GO/PE
    S3. IR spectra of PE, 0.48wt%-AgNPs/PE, 2.88wt%- AgNPs/PE, and 0.48wt%-AgNPs@GO/PE
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    Water vapor transmittance data of PE sheet is 0.03885 g/(m2∙d)
    S4. Water vapor transmittance data of PE sheet is 0.03885 g/(m2∙d)
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    Water vapor transmittance data of 0.48wt%-AgNPs/PE sheet is 0.07477 g/(m2∙d)
    S5. Water vapor transmittance data of 0.48wt%-AgNPs/PE sheet is 0.07477 g/(m2∙d)
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    Water vapor transmittance data of 2.88wt%-AgNPs/ PE sheet, 0.09484 g/(m2∙d)
    S6. Water vapor transmittance data of 2.88wt%-AgNPs/ PE sheet, 0.09484 g/(m2∙d)
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    Water vapor transmittance data of 0.48wt%-AgNPs@GO/PE sheet, 0.02410 g/(m2∙d)
    S7. Water vapor transmittance data of 0.48wt%-AgNPs@GO/PE sheet, 0.02410 g/(m2∙d)
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    Abstract
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    Feng ZHANG, Kai-Li ZHANG, Ming-Ming ZHOU, Chao CHEN, Zhi-Wei CAI, Guo-Hui WEI, Xing-Mao JIANG, Cheng ZHANG, RUHLMANN Laurent, Yao-Kang LÜ. A New Polyethylene Composite Material Based on Nano Silver Particels Loaded Graphene Oxide[J]. Journal of Inorganic Materials, 2019, 34(6): 633
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