Synthesis of Graphene Quantum Dots Enhanced Nano Ca(OH)2 from Ammoniated CaCl2

Wang, Feng; Gu, Yaoqi; Zha, Jianrui; Wei, Shuya

doi:10.3390/ma16041568

Materials

2023

DOI: 10.3390/ma16041568

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Synthesis of Graphene Quantum Dots Enhanced Nano Ca(OH)2 from Ammoniated CaCl2

Feng Wang

Yaoqi Gu

Jianrui Zha

et al.

Abstract: Ca(OH)2 nanoparticles are effective materials for cultural heritage restoration, hazardous substance absorption and photocatalyst. However, many methods are complex, and the particle sizes are usually above 80–100 nm, involving mediocre efficacy for application in the stone restoration field. In this work, Nano Ca(OH)2 with diameters less than 70 nm and composited with Graphene Quantum Dots (GQDs) were successfully synthesized in aqueous media. The morphology and structure of the nanoparticles were investigate… Show more

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Cited by 3 publications

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Dynamics of Carbon Dioxide Adsorption by Carbon Nanotubes

Sabadash,

Gumnitsky,

Lopushansky

et al. 2023

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This article is devoted to the study of the carbon dioxide adsorption process. The relevance of using carbon nanotubes for adsorbing carbon dioxide from industrial emissions is that carbon nanotubes have a high surface area and can effectively interact with carbon dioxide molecules. In addition, they have high mechanical strength and chemical resistance, which makes them attractive for industrial use. Carbon nanotubes have the potential to reduce carbon dioxide emissions and reduce the negative impact on the environment. Using carbon nanotubes in the industry can help reduce greenhouse gas emissions and the environmental impact of burning fossil fuels. Purpose. The work aimed to study the prospects of using carbon nanomaterials to purify industrial emissions from carbon dioxide in a fluidized state. The scientific novelty of the topic "Dynamics of carbon dioxide adsorption by carbon nanotubes" is the study of the influence of temperature and gas velocity on the initial curves of CO2 adsorption dynamics in the fluidized state.

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Dynamics of Carbon Dioxide Adsorption by Carbon Nanotubes

Sabadash,

Gumnitsky,

Lopushansky

et al. 2023

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Decarbonisation of Industrial Gas Emissions by Adsorption Methods

Sabadash,

Lopushansky

2024

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The article is dedicated to the problem of decarbonising industrial gas emissions using adsorption methods. The article examines promising approaches to reducing carbon dioxide (CO₂) emissions using adsorption materials with high selectivity and efficiency in capture processes. The purpose of the study is to determine the adsorption capacity of various types of adsorbents, including synthetic and natural materials, in particular, fly ash synthesised by the hydrothermal method, zeolite obtained by the sintering method, natural zeolite, and fly ash from thermal power plants. The research showed that the most effective adsorbent for absorbing CO₂ is zeolite synthesised by hydrothermal, demonstrating a high adsorption capacity among the studied materials. Natural zeolite and thermal power plant fly ash have a much lower adsorption capacity, but they can be used as cost-effective alternatives for processes with moderate performance requirements. The study also highlights the importance of selecting adsorbents depending on operating conditions, such as temperature and pressure, which affect adsorption. According to the research results, synthetic zeolites have a significant advantage in adsorption efficiency due to their high specific surface area and porous structure, which allow effective absorption of CO₂ even at relatively low gas concentrations. The generalised conclusions of the article indicate that the use of adsorption methods for decarbonising industrial emissions can significantly reduce the level of greenhouse gases in the atmosphere. This research has the potential to significantly impact the field of environmental science and engineering, providing valuable insights for future studies and practical applications.

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Preparation of a Graphene-Enhanced Hydroxyapatite Film on Dolomitic Marble by the Sol-Gel Method

Wang

Li²,

et al. 2023

Crystals

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The preparation of continuous hydroxyapatite film on stone is a promising method of protecting marble from erosion. However, many methods negatively affect the calcium in the substrate and forming of struvite on the dolomite surface, leading to a heterogeneous coating and low efficiency. In this study, a continuous hydroxyapatite coating on dolomitic marble was achieved from graphene enhanced Ca(OH)2 nanoparticles as the calcium precursor using the sol-gel method. The morphology and the structure of the film was evaluated by a field emission scanning electron microscope coupled with energy dispersive spectroscopy (FESEM-EDS), an optical microscope, Raman spectroscopy, Fourier transform infrared spectroscopy (FTIR), and analytical techniques. Moreover, the color and the contact angle measurements, as well as the simulated acid rain test and freeze–thaw treatment, were performed to assess the chromatic aberration, hydrophilicity, reliability, and durability of the coating. A suppositional combination model among hydroxyapatite, graphene quantum dots, and dolomite were suggested based on structural similarities between the support material and components of the functional coating. The integrality and efficiency of the hydroxyapatite film was improved by compositing with graphene quantum dots.

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Synthesis of Graphene Quantum Dots Enhanced Nano Ca(OH)2 from Ammoniated CaCl2

Cited by 3 publications

References 44 publications

Dynamics of Carbon Dioxide Adsorption by Carbon Nanotubes

Dynamics of Carbon Dioxide Adsorption by Carbon Nanotubes

Decarbonisation of Industrial Gas Emissions by Adsorption Methods

Preparation of a Graphene-Enhanced Hydroxyapatite Film on Dolomitic Marble by the Sol-Gel Method

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