Corrigendum to “Effectiveness of zinc oxide-assisted photocatalysis for concerned constituents in reclaimed wastewater: 1,4-Dioxane, trihalomethanes, antibiotics, antibiotic resistant bacteria (ARB), and antibiotic resistance genes (ARGs)” [Sci. Total Environ. 649 (2019) 1189–1197]

Hwangbo, Myung; Claycomb, Everett Caleb; Liu, Yina; Alivio, Theodore E. G.; Banerjee, Sarbajit; Chu, Kung-Hui

doi:10.1016/j.scitotenv.2018.12.095

Cited by 5 publications

(5 citation statements)

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“…The presence of ARB will reduce the effectiveness of therapeutic drugs and pose potential risks to ecosystems and human safety. [ 62 ] Thus, the inactivation experiments of E. coli HB101 and damage of ARGs were also investigated in detail by employing the prepared photocatalysts. The results of the control experiments without photocatalyst show that the number of E. coli HB101 is only decreased by less than one order of magnitude even in the presence of both visible light and antibiotics ( Figure A–D).…”

Section: Resultsmentioning

confidence: 99%

Trifunctional Cu‐Mesh/Cu₂O@FeO Nanoarrays for Highly Efficient Degradation of Antibiotic, Inactivation of Antibiotic‐Resistant Bacteria, and Damage of Antibiotics Resistance Genes

Zhao

Zhou

Wen

et al. 2022

Energy & Environ Materials

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Cu-mesh (CM) via an in situ growth and phasetransformation process. It is successfully applied to efficiently mitigate the antibiotic pollution, including degradation of antibiotics, inactivation of antibiotic-resistant bacteria (ARB) and damage of antibiotics resistance genes (ARGs). Under visible-light irradiation, CM/Cu2O@FeO-nanoarrays exhibits a superior degradation efficiency on antibiotics (e.g., up [Type here] [Type here] 2 to 99% in 25 min for tetracycline hydrochloride, TC), due to the generated reactive oxygen species (ROS), especially the dominant •O 2− . It can fully inactivate E. coli (HB101) with initial number of ~10 8 CFU•mL -1 in 10 min, which is mainly attributed to the synergistic effects of 1D nanostructure, dissolved metal ions and generated ROS. Meanwhile it is able to damage ARGs after 180 min of photodegradation, including tetA (vs. TC) of 3.3 log10, aphA (vs. kanamycin sulfate, KAN) of 3.4 log10, and tnpA (vs. ampicillin, AMP) of 4.4 log10, respectively. This work explores a green way for treating antibiotic pollution under visiblelight.

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Section: Resultsmentioning

confidence: 99%

Trifunctional Cu‐Mesh/Cu₂O@FeO Nanoarrays for Highly Efficient Degradation of Antibiotic, Inactivation of Antibiotic‐Resistant Bacteria, and Damage of Antibiotics Resistance Genes

Zhao

Zhou

Wen

et al. 2022

Energy & Environ Materials

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“…Therefore, the ideal bone cement should have the ability to promote the osteogenic activity of osteoblasts while inhibiting bacterial growth. , Antimicrobial drugs can help address the challenges posed by drug-resistant bacterial infections . ZnO is an antimicrobial material that has been widely used and demonstrated excellent antibacterial effects. − Felice et al prepared a polycaprolactone/ZnO/HA scaffold and found that after doping with ZnO, the scaffold exhibited good antibacterial activity and promoted early cell mineralization induction by the scaffold at a high concentration of ZnO.…”

Section: Introductionmentioning

confidence: 99%

“… 30 ZnO is an antimicrobial material that has been widely used and demonstrated excellent antibacterial effects. 31 − 34 Felice et al 35 prepared a polycaprolactone/ZnO/HA scaffold and found that after doping with ZnO, the scaffold exhibited good antibacterial activity and promoted early cell mineralization induction by the scaffold at a high concentration of ZnO.…”

Section: Introductionmentioning

confidence: 99%

Transforming Natural Eggshell and Diatomite into Bioactive Calcium Silicate Material for Bone Regeneration

Yu,

Liu,

Chen

et al. 2024

ACS Omega

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Calcium silicate (CS), a new and important bioceramic bone graft material, is prepared by using eggshells, which have a porous structure and are rich in calcium ions. Furthermore, the preparation of new CS materials using eggshells and diatomaceous earth minimizes their negative impact on the environment. In this study, we prepared CS materials using a high-temperature calcination method. The composition of the material was demonstrated by X-ray diffraction (XRD) and Fourier transform infrared spectroscopy (FTIR) analysis. Scanning electron microscopy (SEM) analysis confirmed the porous structure of the CS material. We also introduced ZnO to prepare ZnO−CS with antibacterial properties and showed that ZnO−CS exhibits excellent antibacterial effects through in vitro antibacterial experiments. Subsequent in vitro mineralization experiments demonstrated that ZnO−CS promoted the formation of a hydroxyapatite layer. Furthermore, in vitro cytotoxicity experiments demonstrated that ZnO−CS had very good biosafety and promoted cell proliferation. These findings were confirmed through subsequent cell proliferation experiments. Our results indicate that the novel ZnO−CS is a promising candidate for bone tissue engineering.

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“…[ 13–16 ] Therefore, ARGs have a greater potential harm, and thus have been recognized as a new type of pollutant. [ 17–23 ] These findings suggest that bacterial resistance is not only a medical problem, but also an ecological issue. It is crucial to inactivate drug‐resistant genes while killing bacteria.…”

Section: Introductionmentioning

confidence: 99%

Poly(ionic liquid)/Ce‐Based Antimicrobial Nanofibrous Membrane for Blocking Drug‐Resistance Dissemination from MRSA‐Infected Wounds

Luo

Cui

Guo

et al. 2021

Adv Funct Materials

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Resistant bacteria have become a global threat. Even if bacteria are killed, their carried drug‐resistant genes can remain in the environment and spread to other microbes via horizontal gene transfer. Development of antimicrobial materials with intrinsic gene break down activity can prevent the dissemination of released drug‐resistant genes from the dead bacteria. Herein, imidazolium type poly(ionic liquid) (PIL)/cerium (IV) ion‐based electrospun nanofibrous membranes (PIL‐Ce) are synthesized. The effects of PIL and Ce moieties on the antimicrobial properties against Gram‐negative Escherichia coli and kanamycin‐resistant E. coli, and Gram‐positive Staphylococcus aureus and methicillin‐resistant S. aureus (MRSA), as well as deoxyribonuclease‐mimic activities to the drug‐resistant genes of KanR (E. coli) and mecA (MRSA) are investigated. The Ce‐containing PIL membranes show the high efficiencies to eradicate bacteria and disintegrate drug‐resistant genes. A wound treatment test using MRSA infected mice as the model further demonstrate that PIL‐Ce membranes combine both antibacterial and DNase‐mimic properties, and may have the potential application as a new “green” wound dressing to block the drug resistance spread in a clinical setting.

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Corrigendum to “Effectiveness of zinc oxide-assisted photocatalysis for concerned constituents in reclaimed wastewater: 1,4-Dioxane, trihalomethanes, antibiotics, antibiotic resistant bacteria (ARB), and antibiotic resistance genes (ARGs)” [Sci. Total Environ. 649 (2019) 1189–1197]

Cited by 5 publications

References 0 publications

Trifunctional Cu‐Mesh/Cu₂O@FeO Nanoarrays for Highly Efficient Degradation of Antibiotic, Inactivation of Antibiotic‐Resistant Bacteria, and Damage of Antibiotics Resistance Genes

Trifunctional Cu‐Mesh/Cu₂O@FeO Nanoarrays for Highly Efficient Degradation of Antibiotic, Inactivation of Antibiotic‐Resistant Bacteria, and Damage of Antibiotics Resistance Genes

Transforming Natural Eggshell and Diatomite into Bioactive Calcium Silicate Material for Bone Regeneration

Poly(ionic liquid)/Ce‐Based Antimicrobial Nanofibrous Membrane for Blocking Drug‐Resistance Dissemination from MRSA‐Infected Wounds

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Corrigendum to “Effectiveness of zinc oxide-assisted photocatalysis for concerned constituents in reclaimed wastewater: 1,4-Dioxane, trihalomethanes, antibiotics, antibiotic resistant bacteria (ARB), and antibiotic resistance genes (ARGs)” [Sci. Total Environ. 649 (2019) 1189–1197]

Cited by 5 publications

References 0 publications

Trifunctional Cu‐Mesh/Cu2O@FeO Nanoarrays for Highly Efficient Degradation of Antibiotic, Inactivation of Antibiotic‐Resistant Bacteria, and Damage of Antibiotics Resistance Genes

Trifunctional Cu‐Mesh/Cu2O@FeO Nanoarrays for Highly Efficient Degradation of Antibiotic, Inactivation of Antibiotic‐Resistant Bacteria, and Damage of Antibiotics Resistance Genes

Transforming Natural Eggshell and Diatomite into Bioactive Calcium Silicate Material for Bone Regeneration

Poly(ionic liquid)/Ce‐Based Antimicrobial Nanofibrous Membrane for Blocking Drug‐Resistance Dissemination from MRSA‐Infected Wounds

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Trifunctional Cu‐Mesh/Cu₂O@FeO Nanoarrays for Highly Efficient Degradation of Antibiotic, Inactivation of Antibiotic‐Resistant Bacteria, and Damage of Antibiotics Resistance Genes

Trifunctional Cu‐Mesh/Cu₂O@FeO Nanoarrays for Highly Efficient Degradation of Antibiotic, Inactivation of Antibiotic‐Resistant Bacteria, and Damage of Antibiotics Resistance Genes