Role of Multiwalled Carbon Nanotubes as Shear Reinforcing Nanopins in Quasi-Brittle Matrices

Du, Mingrui; Duan, Wenhui; Chen, Weiqiang; Jing, Hong Wen

doi:10.1021/acsanm.8b00162

Cited by 30 publications

(15 citation statements)

References 53 publications

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“…Studies have shown that the size, charge, and surface modification of carbon nanomaterials have important influence on their antiviral activity. The mechanisms of inhibiting virus were shown to include blocking the entry of virus, improving expression of ISG, changing the structure of surface protein of virus, etc 9–14,77,78. Virus infection to cells is an extremely complex dynamic process, including changes in the structure of the virus, cellular immune stress, and changes in the microecology of the viral parasitic cells.…”

Section: Discussionmentioning

confidence: 99%

“…CDs have a small size and controllable surface functional groups, which facilitate their high adsorption interactions with different biological surfaces 7. Recently, functionalized CDs synthesized by hydrothermal method have been shown to have antiviral activity 8–14. However, the antiviral mechanism of these CDs remains to be further elucidated, and the response of cells to them is still unknown.…”

Section: Introductionmentioning

confidence: 99%

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Glycyrrhizic‐Acid‐Based Carbon Dots with High Antiviral Activity by Multisite Inhibition Mechanisms

Tong

Zhou

et al. 2020

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With the gradual usage of carbon dots (CDs) in the area of antiviral research, attempts have been stepped up to develop new antiviral CDs with high biocompatibility and antiviral effects. In this study, a kind of highly biocompatible CDs (Gly‐CDs) is synthesized from active ingredient (glycyrrhizic acid) of Chinese herbal medicine by a hydrothermal method. Using the porcine reproductive and respiratory syndrome virus (PRRSV) as a model, it is found that the Gly‐CDs inhibit PRRSV proliferation by up to 5 orders of viral titers. Detailed investigations reveal that Gly‐CDs can inhibit PRRSV invasion and replication, stimulate antiviral innate immune responses, and inhibit the accumulation of intracellular reactive oxygen species (ROS) caused by PRRSV infection. Proteomics analysis demonstrates that Gly‐CDs can stimulate cells to regulate the expression of some host restriction factors, including DDX53 and NOS3, which are directly related to PRRSV proliferation. Moreover, it is found that Gly‐CDs also remarkably suppress the propagation of other viruses, such as pseudorabies virus (PRV) and porcine epidemic diarrhea virus (PEDV), suggesting the broad antiviral activity of Gly‐CDs. The integrated results demonstrate that Gly‐CDs possess extraordinary antiviral activity with multisite inhibition mechanisms, providing a promising candidate for alternative therapy for PRRSV infection.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Glycyrrhizic‐Acid‐Based Carbon Dots with High Antiviral Activity by Multisite Inhibition Mechanisms

Tong

Zhou

et al. 2020

Small

180

165

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“…In a previous study by the present authors [125], cement-based materials containing 0.018 wt.% and 0.036 wt.% MWCNTs were fabricated and their cohesion and friction angle were measured after 28 days of aging. The addition of 0.036 wt.% CNTs improved the cohesion and friction angle by 24% and 19%, respectively, indicating improved shearing resistance.…”

Section: Improvement In Mechanical Properties and Relevant Mechanismsmentioning

confidence: 99%

Carbon nanomaterials enhanced cement-based composites: advances and challenges

Jing

Gao

et al. 2020

Nanotechnology Reviews

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AbstractCarbon nanomaterials, predominantly carbon nanofibers, carbon nanotubes, graphene, graphene nanoplates, graphene oxide and reduced graphene oxide, possess superior chemical, physical and mechanical properties. They have been successfully introduced into ordinary Portland cement to give enhancements in terms of mechanical properties, durability and electrical/thermal conductivity, and to modify the functional properties, converting conventional cement-based materials into stronger, smarter and more durable composites. This paper provides a comprehensive review of the properties of carbon nanomaterials, current developments and novel techniques in carbon nanomaterials enhanced cement-based composites (CN-CBCs). Further study of the applications of CN-CBCs at industrial scale is also discussed.

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“…1 was used to determine the thermo-osmotic coefficient in a nanochannel of width 𝐿 𝑧 sandwiched between two quartz plates. The crystal structure of α-quartz (Skelton et al, 2011, Du et al, 2018, Ouyang et al, 2020 was used to construct the nanochannels, which was filled with water molecules. Periodic boundary conditions were applied in x and y directions.…”

Section: Molecular Dynamics Systemmentioning

confidence: 99%

Thermo-osmosis in silica nanochannels

Chen

Sedighi

Jivkov

2021

JGS Special Publication

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Thermo-osmosis is a coupled phenomenon describing the fluid flow induced by a thermal gradient. Recent studies on thermo-osmosis in clays and within the coupled thermal, hydraulic and mechanical analysis have revealed the importance of this physical processes in geo-energy and geo-environmental applications. This paper presents a series of molecular dynamics simulations of the interfacial water behaviour at the vicinity of silicate layers to quantify the nanochannel size effect on the thermo-osmotic coefficient and reveal some aspects of governing mechanisms of thermo-osmosis in nanoscale space. Our results show that the size effect emerges from the specific liquid structure controlled by the channel width. The overlapping and interfering boundary layers lead to the variations of thermoosmotic response with the channel width. Our findings not only facilitate a basic knowledge of thermo-osmosis, but also contribute insights and methods to analyse a wider category of coupled heat and mass transfer problems in nanometric space.

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Role of Multiwalled Carbon Nanotubes as Shear Reinforcing Nanopins in Quasi-Brittle Matrices

Cited by 30 publications

References 53 publications

Glycyrrhizic‐Acid‐Based Carbon Dots with High Antiviral Activity by Multisite Inhibition Mechanisms

Glycyrrhizic‐Acid‐Based Carbon Dots with High Antiviral Activity by Multisite Inhibition Mechanisms

Carbon nanomaterials enhanced cement-based composites: advances and challenges

Thermo-osmosis in silica nanochannels

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