A Progress Review On Characterization, Environmental Behaviors And Toxicity Effects Of Micro (Nano) Plastics Using Atomic Spectrometry

Tan, Zhiqiang; Yin, Yongguang

doi:10.46770/as.2023.302

At.Spectrosc.

2023

DOI: 10.46770/as.2023.302

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A Progress Review On Characterization, Environmental Behaviors And Toxicity Effects Of Micro (Nano) Plastics Using Atomic Spectrometry

Zhiqiang Tan,

Yongguang Yin

Abstract: Micro (nano) plastics, MNPLs, have become emerging particulate human-made pollutants, and quickly become the fields of increasing concern of the public. Due to the lack of analytical technology with sufficient sensitivity and selectivity, it is difficult to fully detect and determine the characteristics of MNPLs in the environment and biological matrix. Atomic spectrometry has many advantages, such as low detection limit and high sensitivity, and shows great potential in the analysis of MNPLs. However, there i… Show more

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2024

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Research on the impact of active calcium carbonate on the performance of degradable composite films

Li,

Sun,

Zhang

et al. 2024

Journal of Polymer Engineering

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Active CaCO3(AC) was prepared via a carbonization‒wet modification process, and a PBAT/PPCU/active CaCO3 composite films (FAC) was obtained via the blown film method using AC and polybutylene adipate‒terephthalate (PBAT)/polymethyl ethylene carbonate-thermoplastic polyurethane rubber (PPCU). The influence of AC on the performance of the FAC was investigated via Fourier transform infrared spectroscopy (FT-IR), thermogravimetry (TG), rheological behavior, differential scanning calorimetry (DSC), transmission rate of water vapor, and tensile properties. The addition of AC significantly improved the thermostability and crystallization ability of the composite film system. With increasing addition of AC, the tensile strength and breaking elongation of the FACs both tended to increase but then decreased. Compared with F-0, FAC-20 presented the most remarkable tensile performance, with tensile strength and breaking elongation increasing by 21.83 % and 18.56 %, respectively. Furthermore, the transmission rate and permeability of water vapor of FAC-20 were reduced by 21.45 % and 38.78 %, respectively. The addition of AC improved the interfacial compatibility of the PBAT phase and the PPCU phase, which improved the complex viscosity, loss modulus, and storage modulus of the FACs.

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Research on the impact of active calcium carbonate on the performance of degradable composite films

Li,

Sun,

Zhang

et al. 2024

Journal of Polymer Engineering

View full text Add to dashboard Cite

show abstract

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A Progress Review On Characterization, Environmental Behaviors And Toxicity Effects Of Micro (Nano) Plastics Using Atomic Spectrometry

Cited by 1 publication

References 111 publications

Research on the impact of active calcium carbonate on the performance of degradable composite films

Research on the impact of active calcium carbonate on the performance of degradable composite films

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