Thermoresponsive Hybrid Colloidal Capsules as an Inorganic Additive for Fire-Resistant Silicone-Based Coatings

Pham, Sang T.; Sencadas, Vítor; Joseph, Paul; Arun, Malavika; Cortie, David

doi:10.1021/acs.iecr.2c01967

Ind. Eng. Chem. Res.

2022

DOI: 10.1021/acs.iecr.2c01967

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Thermoresponsive Hybrid Colloidal Capsules as an Inorganic Additive for Fire-Resistant Silicone-Based Coatings

Sang T. Pham

Vítor Sencadas

Paul Joseph

et al.

Abstract: Improving the fire-resistant efficiency of silicone-based polymeric coatings is important in the building industry and electrical utilities. In this study, the water-containing hybrid calcium carbonate (CaCO3)–silica (SiO2) colloidal capsule has been developed and optimized as an inorganic flame-retardant additive. This capsule exhibits excellent thermal stability up to 1000 °C with a remaining intact hollow spherical structure. When used as an inorganic filler at 15 wt %, it not only reduces the potential fir… Show more

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Cited by 7 publications

References 71 publications

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Microplastic and nanoplastic debris left behind by a plastic water tank subjected to a mimicked bushfire

Luo,

Gibson,

Tang

et al. 2024

Engineering Reports

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Little is known about the catastrophic bushfire from a micro‐pollution point of view, and there is also very limited understanding of the emerging contamination of microplastics and nanoplastics. Upon exposure to fire, plastic items, such as water tanks, may release a substantial quantity of microplastics and nanoplastics, as characterized in this study through the analysis of residual debris. Using Raman imaging with the scanning pixel size down to 100 nm × 100 nm, we over‐scan the sample surface to collect a hyperspectral matrix. In order to map and convert the scanning hyperspectral matrix to an image, we compare and advance the chemometrics of algorithms, including logic and principal component analysis (PCA), to extract the weak signal of microplastics and particularly nanoplastics, which enables us to directly visualize the different degrees of burning. By doing so, we can identify the microplastics and nanoplastics down to ˜100 nm, which means that we can break through the diffraction limit of the laser which is ˜296 nm (λ/2NA) to capture nanoplastics. Using statistical analysis, we estimate that 1.4–4.7 million micro‐ and nanoplastics per cm2 can be left behind by the mimicked‐bushfire‐burned plastic tank. This study suggests that bushfire can accelerate the release of micro‐ and nanoplastics in the environment. This study not only contributes essential insights into the micro‐pollution consequences of fire burning but also underscores the urgency of addressing this understudied aspect to inform environmental conservation strategies and public health measures.

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Microplastic and nanoplastic debris left behind by a plastic water tank subjected to a mimicked bushfire

Luo,

Gibson,

Tang

et al. 2024

Engineering Reports

View full text Add to dashboard Cite

show abstract

Effects of controlled release silica nanocapsules containing sucrose on the heat release of cement hydration

Dong

Zhang

Guo

et al. 2023

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Accelerated transformation of plastic furniture into microplastics and nanoplastics by fire

Luo

Naidu

Fang

2023

Environmental Pollution

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Thermoresponsive Hybrid Colloidal Capsules as an Inorganic Additive for Fire-Resistant Silicone-Based Coatings

Cited by 7 publications

References 71 publications

Microplastic and nanoplastic debris left behind by a plastic water tank subjected to a mimicked bushfire

Microplastic and nanoplastic debris left behind by a plastic water tank subjected to a mimicked bushfire

Effects of controlled release silica nanocapsules containing sucrose on the heat release of cement hydration

Accelerated transformation of plastic furniture into microplastics and nanoplastics by fire

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