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    Journals >Journal of Inorganic Materials >Volume 36 >Issue 3 >Page 257 > Article
    • Journal of Inorganic Materials
    • Vol. 36, Issue 3, 257 (2021)
    Nanozyme: a New Strategy Combating Bacterial
    Jiajun FU1, Tao SHEN1, Jia WU2, and Chen WANG1
    Author Affiliations
  • 11. School of Chemical Engineering, Nanjing University of Science and Technology, Nanjing 210094, China
  • 22. Jiangsu China Tobacco Technology Center, Nanjing 210009, China
    • show less
    DOI: 10.15541/jim20200273 Cite this Article
    Jiajun FU, Tao SHEN, Jia WU, Chen WANG. Nanozyme: a New Strategy Combating Bacterial[J]. Journal of Inorganic Materials, 2021, 36(3): 257 Copy Citation Text show less
    Principle of active substances incorporated in an antifouling device with haloperoxidase-like activity[29]
    1. Principle of active substances incorporated in an antifouling device with haloperoxidase-like activity[29]
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    Regulation mechanism of signaling molecules on marine bacterial QS system[29]
    2. Regulation mechanism of signaling molecules on marine bacterial QS system[29]
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    (a) eDNA acting as a bridge, and (b) disruption of EPS by DNase attacking the eDNA component of the EPS[41]
    3. (a) eDNA acting as a bridge, and (b) disruption of EPS by DNase attacking the eDNA component of the EPS[41]
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    (a,b)TEM images of the MSN-AuNPs under different magnifications, enzyme activity of MSN-AuNPs under different (c) pH and (d) temperature conditions, and growth densities of (e) E. coli and (f) S. aureus under different conditions[43]
    4. (a,b)TEM images of the MSN-AuNPs under different magnifications, enzyme activity of MSN-AuNPs under different (c) pH and (d) temperature conditions, and growth densities of (e) E. coli and (f) S. aureus under different conditions[43]
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    (a) ZIF-8 structural framework and (b) PMCS structural model, TEM images of (c) ZIF-8 and (d) PMCS, (e) apoptosis analysis of P. aeruginosa treated with PMCS, and (f) proposed catalytic mechanism of PMCS[46]
    5. (a) ZIF-8 structural framework and (b) PMCS structural model, TEM images of (c) ZIF-8 and (d) PMCS, (e) apoptosis analysis of P. aeruginosa treated with PMCS, and (f) proposed catalytic mechanism of PMCS[46]
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    (a) Synthesis route of Cit-MoS2, and (b) illustration of light regulating Cit-MoS2 enzyme activity to achieve Gram-selective antibacterial potential, and bacterial viabilities under different (c) pH and (d) irradiation time[49]
    6. (a) Synthesis route of Cit-MoS2, and (b) illustration of light regulating Cit-MoS2 enzyme activity to achieve Gram-selective antibacterial potential, and bacterial viabilities under different (c) pH and (d) irradiation time[49]
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    (a) Preparation of the antibacterial platform, and its (b) schematic diagram of antibacterial, and survival rates of (c) S. aureus and (d) E. coli treated with different concentrations of ascorbic acid[52]
    7. (a) Preparation of the antibacterial platform, and its (b) schematic diagram of antibacterial, and survival rates of (c) S. aureus and (d) E. coli treated with different concentrations of ascorbic acid[52]
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    (a) Preparation of DMAE and its (b) TEM and (c) SEM images, as well as magnified (d, e) TEM images of Au NPs confined on the surface of core/shell particles, and (f) growth of biofilms and (g) average thickness of the biofilms[64]
    8. (a) Preparation of DMAE and its (b) TEM and (c) SEM images, as well as magnified (d, e) TEM images of Au NPs confined on the surface of core/shell particles, and (f) growth of biofilms and (g) average thickness of the biofilms[64]
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    (a) TEM and (b) HRTEM images of CeO2-x NPs, (c) ocean hanging board experiment, and (d) proposed catalytic bromination mechanism of the CeO2-x NPs[72]
    9. (a) TEM and (b) HRTEM images of CeO2-x NPs, (c) ocean hanging board experiment, and (d) proposed catalytic bromination mechanism of the CeO2-x NPs[72]
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    (a) Schematic diagram of preparation and anti-fouling of nanofibrous, SEM images of PVA (b) without and (c) with CeO2-x NRs after incubation, and (d) comparison of bacterial adhesion between 22wt% filled and unfilled PVA nanofibrous[73]
    10. (a) Schematic diagram of preparation and anti-fouling of nanofibrous, SEM images of PVA (b) without and (c) with CeO2-x NRs after incubation, and (d) comparison of bacterial adhesion between 22wt% filled and unfilled PVA nanofibrous[73]
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    Jiajun FU, Tao SHEN, Jia WU, Chen WANG. Nanozyme: a New Strategy Combating Bacterial[J]. Journal of Inorganic Materials, 2021, 36(3): 257
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