Xiaoqing Wu scite author profile

A gas sensor is used to detect SF6 decomposed gases, which are related to insulation faults, to accurately assess the insulated status of electrical equipment. Graphene films (GrF) modified with Au nanoparticles are used as an adsorbent for the detection of H2S and SOF2, which are two characteristic products of SF6 decomposed gases. Sensing experiments are conducted at room temperature. Results demonstrate that Au‐modified GrF yields opposite responses to the tested gases and is thus considered a promising material for developing H2S‐ and SOF2‐selective sensors. The first‐principles approach is applied to simulate the interaction between the gases and Au‐modified GrF systems and to interpret experimental data. The observed opposite resistance responses can be attributed to the charge‐transfer differences related to the interfacial interaction between the gases and systems. The density of states and Mulliken population analysis results confirm the apparent charge transfer in Au‐modified GrF chemisorption, whereas the van der Waals effect dominates the pristine graphene adsorption systems. Calculation results can also explicate the significant SOF2 responses on Au‐modified GrF. This work is important in graphene modulation and device design for selective detection.

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Moral distress and its influencing factors: A cross-sectional study in China

Zhang

Zhan

et al. 2016

Nurs Ethics

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Theoretical Calculation of the Gas-Sensing Properties of Pt-Decorated Carbon Nanotubes

Zhang

Dai

et al. 2013

Sensors

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The gas-sensing properties of Pt-decorated carbon nanotubes (CNTs), which provide a foundation for the fabrication of sensors, have been evaluated. In this study, we calculated the gas adsorption of Pt-decorated (8,0) single-wall CNTs (Pt-SWCNTs) with SO2, H2S, and CO using GGA/PW91 method based on density functional theory. The adsorption energies and the changes in geometric and electronic structures after absorption were comprehensively analyzed to estimate the responses of Pt-SWCNTs. Results indicated that Pt-SWCNTs can respond to the three gases. The electrical characteristics of Pt-SWCNTs show different changes after adsorption. Pt-SWCNTs donate electrons and increase the number of hole carriers after adsorbing SO2, thereby enhancing its conductivity. When H2S is adsorbed on CNTs, electrons are transferred from H2S to Pt-SWCNTs, converting Pt-SWCNTs from p-type to n-type sensors with improved conductivity. However, Pt-SWCNTs obtain electrons and show decreased conductivity when reacted with CO gas.

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A Half-Select Disturb-Free 11T SRAM Cell With Built-In Write/Read-Assist Scheme for Ultralow-Voltage Operations

Zhang

et al. 2019

IEEE Trans. VLSI Syst.

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Repressed Beauveria bassiana infections in Delia antiqua due to associated microbiota

Zhou

et al. 2018

Pest Management Science

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Comparative Metabolomic and Transcriptome Analysis Reveal Distinct Flavonoid Biosynthesis Regulation Between Petals of White and Purple Phalaenopsis amabilis

Meng

et al. 2019

J Plant Growth Regul

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Low-temperature remote plasma-enhanced atomic layer deposition of graphene and characterization of its atomic-level structure

et al. 2014

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Graphene has attracted a great deal of research interest owing to its unique properties and many potential applications. Chemical vapor deposition has shown some potential for the growth of large-scale and uniform graphene films; however, a high temperature (over 800 C) is usually required for such growth. A whole new method for the synthesis of graphene at low temperatures by means of remote plasmaenhanced atomic layer deposition is developed in this work. Liquid benzene was used as a carbon source. Large graphene sheets with excellent quality were prepared at a growth temperature as low as 400 C. The atomic structure of the graphene was characterized by means of aberration-corrected transmission electron microscopy. Hexagonal carbon rings and carbon atoms were observed, indicating a highly crystalline structure of the graphene. These results point to a new technique for the growth of high-quality graphene for potential device applications.

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Fusarium solani Infection Depressed Photosystem Performance by Inducing Foliage Wilting in Apple Seedlings

Ren

Zhao

et al. 2018

Front. Plant Sci.

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Fusarium fungi are soil-borne pathogens, and the pathological effects on plant photosystems remain unclear. This study aimed to deeply reveal pathological characterization in apple seedlings infected with Fusarium solani by investigating photosystems performance and interaction. Roots were immersed in conidial suspension for inoculation. Thereafter, prompt and delayed chlorophyll a fluorescence and modulated 820 nm reflection were simultaneously detected. After 30 days of infection, leaf relative water content and dry weight were remarkably decreased by 55.7 and 47.1%, suggesting that the infected seedlings were subjected to Fusarium-induced water deficit stress. PSI reaction center was more susceptible than PSII reaction center in infected seedlings due to greater decrease in the maximal photochemical efficiency of PSI than that of PSII, but PSI reaction center injury was aggravated slowly, as PSII injury could partly protect PSI by restricting electron donation. PSII donor and acceptor sides were also damaged after 20 days of infection, and the restricted electron donation induced PSII and PSI disconnection by blocking PSI re-reduction. In accordance with greater damage of PSI reaction center, PSI oxidation was also suppressed. Notably, significantly increased efficiency of electron transport from plastoquinone (PQ) to PSI acceptors (REo/ETo) after 20 days of infection suggested greater inhibition on PQ reduction than re-oxidation, and the protection for PSI acceptors might alleviate the reduction of electron transport efficiency beyond PQ upon damaged PSI reaction center. Lowered delayed fluorescence in microsecond domain verified PSII damage in infected seedlings, and elevated delayed fluorescence in sub-millisecond domain during PQ reduction process conformed to increased REo/ETo. In conclusion, F. solani infection depressed PSII and PSI performance and destroyed their coordination by inducing pathological wilting in apple seedlings. It may be a pathogenic mechanism of Fusarium to induce plant photosystems damage.

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Xiaoqing Wu

Experimental Sensing and Density Functional Theory Study of H₂S and SOF₂ Adsorption on Au‐Modified Graphene

Moral distress and its influencing factors: A cross-sectional study in China

Theoretical Calculation of the Gas-Sensing Properties of Pt-Decorated Carbon Nanotubes

A Half-Select Disturb-Free 11T SRAM Cell With Built-In Write/Read-Assist Scheme for Ultralow-Voltage Operations

Repressed Beauveria bassiana infections in Delia antiqua due to associated microbiota

Comparative Metabolomic and Transcriptome Analysis Reveal Distinct Flavonoid Biosynthesis Regulation Between Petals of White and Purple Phalaenopsis amabilis

Low-temperature remote plasma-enhanced atomic layer deposition of graphene and characterization of its atomic-level structure

Fusarium solani Infection Depressed Photosystem Performance by Inducing Foliage Wilting in Apple Seedlings

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Xiaoqing Wu

Experimental Sensing and Density Functional Theory Study of H2S and SOF2 Adsorption on Au‐Modified Graphene

Moral distress and its influencing factors: A cross-sectional study in China

Theoretical Calculation of the Gas-Sensing Properties of Pt-Decorated Carbon Nanotubes

A Half-Select Disturb-Free 11T SRAM Cell With Built-In Write/Read-Assist Scheme for Ultralow-Voltage Operations

Repressed Beauveria bassiana infections in Delia antiqua due to associated microbiota

Comparative Metabolomic and Transcriptome Analysis Reveal Distinct Flavonoid Biosynthesis Regulation Between Petals of White and Purple Phalaenopsis amabilis

Low-temperature remote plasma-enhanced atomic layer deposition of graphene and characterization of its atomic-level structure

Fusarium solani Infection Depressed Photosystem Performance by Inducing Foliage Wilting in Apple Seedlings

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Product

Resources

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Experimental Sensing and Density Functional Theory Study of H₂S and SOF₂ Adsorption on Au‐Modified Graphene