Yu Cheng scite author profile

Dielectric capacitors with ultrahigh power densities and fast charging/discharging rates are of vital relevance in advanced electronic markets. Nevertheless, a tradeoff always exists between breakdown strength and polarization, which are two essential elements determining the energy storage density. Herein, a novel trilayered architecture composite film, which combines outer layers of two-dimensional (2D) BNNS/poly(vinylidene fluoride-cohexafluoropropylene) (P(VDF-HFP)) with high breakdown strength and an intermediate layer made of blended 2D MoS 2 nanosheets/P(VDF-HFP) with large polarization, is fabricated using the layer-by-layer casting method. The insulating BNNS with a wide band gap is able to largely alleviate the distortion of the local electric field, thereby suppressing the leakage current and effectively reducing the conductivity loss, while the 2D MoS 2 nanosheets act as microcapacitors in the polymer composites, thus significantly increasing the permittivity. A finite element simulation is carried out to further analyze the evolution process of electrical treeing in the experimental breakdown of the polymer nanocomposites. Consequently, the nanocomposites possess an excellent discharged energy density of 25.03 J/cm 3 accompanied with a high charging/discharging efficiency of 77.4% at 650 MV/m, which greatly exceeds those of most conventional single-layer films. In addition, the corresponding composites exhibit an outstanding reliability of energy storage performance under continuous cycling. The excellent performances of these polymer-based nanocomposite films could pave a way for widespread applications in advanced capacitors.

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16S rDNA analysis of the effect of fecal microbiota transplantation on pulmonary and intestinal flora

Liu

Yang

Zhang

et al. 2017

3 Biotech

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This study aims to explore the effect of FMT on regulations of dysbacteriosis of pulmonary and intestinal flora in rats with 16S rDNA sequencing technology. A total of 27 SPF rats (3-4 weeks old) were randomly divided into three groups: normal control group (K), model control group (MX), and fecal microbiota transplantation group (FMT); each group contained nine rats. The OTU values of the pulmonary and intestinal flora of the MX group decreased significantly compared with the normal control group. After FMT, the OTU value of pulmonary flora increased, while the value of OTU in intestinal flora declined. At the phylum level, FMT down-regulated ,, and in the pulmonary flora. At the genus level, FMT down-regulated, ,, , and, thus maintaining the balance of the pulmonary flora. Moreover, FMT could change the structure and diversity of the pulmonary and intestinal flora by positively regulating the pulmonary flora and negatively regulating intestinal flora. This study may provide a scientific basis for FMT treatment of respiratory diseases.

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Ultrahigh charge–discharge efficiency and high energy density of a high-temperature stable sandwich-structured polymer

et al. 2022

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Modulating electron traps of PEI-based nanocomposites for superb capacitive performance over a broad temperature range

Ding

Pan²,

Cheng³

et al. 2023

Chemical Engineering Journal

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Yu Cheng

Ultrahigh discharge efficiency and improved energy density in polymer-based nanocomposite for high-temperature capacitors application

Two-Dimensional Fillers Induced Superior Electrostatic Energy Storage Performance in Trilayered Architecture Nanocomposites

16S rDNA analysis of the effect of fecal microbiota transplantation on pulmonary and intestinal flora

Ultrahigh charge–discharge efficiency and high energy density of a high-temperature stable sandwich-structured polymer

Modulating electron traps of PEI-based nanocomposites for superb capacitive performance over a broad temperature range

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