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581 results on '"Wang, Xiayan"'

51. Ultra‐Large Two‐Dimensional Metal Nanowire Networks by Microfluidic Laminar Flow Synthesis for Formic Acid Electrooxidation.

Author

Zhang, Dongtang, Bu, Jiahui, Dou, Xiangnan, Yan, Yong, Liu, Qiqi, Wang, Xiayan, Sun, Zaicheng, Guo, Guangsheng, Zheng, Kun, and Deng, Jiguang

Subjects
OXIDATION of formic acid, FORMIC acid, LAMINAR flow, MICROFLUIDICS, FOURIER transforms
Abstract

Despite the great research interest in two‐dimensional metal nanowire networks (2D MNWNs) due to their large specific surface area and abundance of unsaturated coordination atoms, their controllable synthesis still remains a significant challenge. Herein, a microfluidics laminar flow‐based approach is developed, enabling the facile preparation of large‐scale 2D structures with diverse alloy compositions, such as PtBi, AuBi, PdBi, PtPdBi, and PtAuCu alloys. Remarkably, these 2D MNWNs can reach sizes up to submillimeter scale (~220 μm), which is significantly larger than the evolution from the 1D or 3D counterparts that typically measure only tens of nanometers. The PdBi 2D MNWNs affords the highest specific activity for formic acid (2669.1 mA mg−1) among current unsupported catalysts, which is 103.5 times higher than Pt‐black, respectively. Furthermore, in situ Fourier transform infrared (FTIR) experiments provide comprehensive evidence that PdBi 2D MNWNs catalysts can effectively prevent CO* poisoning, resulting in exceptional activity and stability for the oxidation of formic acid. [ABSTRACT FROM AUTHOR]

Published
2024
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83. Assessing the Redox Toxicity of 2D Nanosheets Based on Their Redox Effect on Cytochrome cin Microchannels

Author

Zhao, Lei, Wang, Qiaoyan, Cui, Xiaohu, Li, Hongbin, Zhao, Lizhi, Wang, Zifan, Zhou, Xueyan, Wang, Xiayan, Ma, Zhongren, and Pu, Qiaosheng

Abstract

2D nanosheets (NSs) have been widely used in drug-related applications. However, a comprehensive investigation into the cytotoxicity mechanism linked to the redox activity is lacking. In this study, with cytochrome c(Cyt c) as the model biospecies, the cytotoxicity of 2D NSs was evaluated systematically based on their redox effect with microfluidic techniques. The interface interaction, dissolution, and redox effect of 2D NSs on Cyt cwere monitored with pulsed streaming potential (SP) measurement and capillary electrophoresis (CE). The relationship between the redox activity of 2D NSs and the function of Cyt cwas evaluated in vitrowith Hela cells. The results indicated that the dissolution and redox activity of 2D NSs can be simultaneously monitored with CE under weak interface interactions and at low sample volumes. Both WS2NSs and MoS2NSs can reduce Cyt cwithout significant dissolution, with reduction rates measured at 6.24 × 10–5M for WS2NSs and 3.76 × 10–5M for MoS2NSs. Furthermore, exposure to 2D NSs exhibited heightened reducibility, which prompted more pronounced alterations associated with Cyt cdysfunction, encompassing ATP synthesis, modifications in mitochondrial membrane potential, and increased reactive oxygen species production. These observations suggest a positive correlation between the redox activity of 2D NSs and their redox toxicity in Hela cells. These findings provide valuable insight into the redox properties of 2D NSs regarding cytotoxicity and offer the possibility to modify the 2D NSs to reduce their redox toxicity for clinical applications.

Published
2024
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90. Clusterbody Enables Flow Sorting-Assisted Single-Cell Mass Spectrometry Analysis for Identifying Reversal Agent of Chemoresistance

Author

Li, Han, primary, Li, Jiaojiao, additional, Wang, Meng, additional, Feng, Weiyue, additional, Gao, Fuping, additional, Han, Ying, additional, Shi, Yijie, additional, Du, Zhongying, additional, Yuan, Qing, additional, Cao, Peng, additional, Wang, Xiayan, additional, Gao, Xueyun, additional, Cao, Kai, additional, and Gao, Liang, additional

Published
2022
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98. Highly efficient wurtzite/zinc blende CdS visible light photocatalyst with high charge separation efficiency and stability.

Author

Zhu, Jingxian, Jiang, Wenshuai, Wang, Bin, Niu, Lijuan, Dong, Chenxi, Qu, Dan, An, Li, Wang, Xiayan, and Sun, Zaicheng

Subjects
VISIBLE spectra, WURTZITE, SPHALERITE, QUANTUM efficiency, RUTILE, LIGHT absorption, PHOTOCATALYSTS
Abstract

Mixed phase TiO2 (Degussa P25) exhibits superior photocatalytic performance and stability due to the formation of the hetero-phase junction between anatase and rutile. However, the large bandgap limits its visible light activity. CdS is a photocatalyst with a broad light absorption band up to 550 nm. Constructing a hetero-phase junction will greatly promote the photocatalytic activity of CdS. In this work, the one-step solvothermal method was used to synthesize CdS hetero-phase junction with both hexagonal wurtzite (WZ) and cubic zinc blende (ZB) phases. The ratio of WZ and ZB phases can be tuned by adjusting the solvent ratio and reaction time to construct type I junction and effectively separate the photogenerated electron–hole pair. Under visible-light illumination, the optimal photocatalytic activity of the prepared material reaches 7.96 mmol h−1 g−1, and the quantum efficiency is 36.7% at 420 nm, which is three times higher than that of any single-phase sample (cubic or hexagonal phase) and maintains high photocatalytic stability as well. It is expected that this work will provide a feasible prospect for the practical application of high-efficiency homogeneous junction photocatalysts. [ABSTRACT FROM AUTHOR]

Published
2020
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100. Synthesis of Multiple Emission Carbon Dots from Dihydroxybenzoic Acid via Decarboxylation Process.

Author

Li, Pengfei, Xu, Jijian, Shen, Ziye, Liu, Wenning, An, Li, Qu, Dan, Wang, Xiayan, and Sun, Zaicheng

Subjects
CARBON emissions, DECARBOXYLATION, VISIBLE spectra, LIGHT absorption, HYDROGEN production, PHOTOCATALYSTS, INTERSTITIAL hydrogen generation
Abstract

Carbon dots (CDs), as a new zero-dimensional carbon-based nanomaterial with desirable optical properties, exhibit great potential for many application fields. However, the preparation technique of multiple emission CDs with high yield is difficult and complex. Therefore, exploring the large-scale and straightforward synthesis of multicolor CDs from a simple carbon source is necessary. In this work, the solvent-free method prepares a series of multicolor emission CDs from dihydroxybenzoic acid (DHBA). The maximum emission wavelengths are 408, 445, 553, 580, and 610 nm, respectively, covering the visible light region. The 2,4- and 2,6-CDs possess the longer emission wavelength caused by the 2,4-, and 2,6-DHBA easily undergo decarboxylation to form the larger sp2 domain graphitized structure. These CDs incorporated with g-C3N4 can significantly improve the photocatalytic water-splitting hydrogen production rate by extending the visible light absorption and enhancing the charge separation efficiency. The long-wavelength emission CDs can further enhance photocatalytic activity primarily by improving visible light absorption efficiency. [ABSTRACT FROM AUTHOR]

Published
2023
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