Your search keyword '"Liang, Wencui"' showing total 17 results

1. Work-function-prompted interfacial charge kinetics in hierarchical heterojunction flexible electrode for efficient capacitive deionization

Author

Gao, Ming, Xiao, Weilong, Miao, Luwei, Kong, Hao, Yang, Zhiqian, Liang, Wencui, Ao, Tianqi, and Chen, Wenqing

Published

2024

2. Encapsulation hierarchical bimetallic oxide with flexible electrospinning carbon nanofibers for efficient capacitive deionization

Author

Gao, Ming, Li, Na, He, Caiqing, Kang, Yuchen, Kong, Hao, Yang, Li, Liang, Wencui, Ao, Tianqi, Mou, Haiyan, and Chen, Wenqing

Published

2024

3. Capacitive deionization toward fluoride elimination: Selective advantage, state of the art, and future perspectives

Author

Gao, Ming, Wang, Zhen, Xiao, Weilong, Miao, Luwei, Yang, Zhiqian, Liang, Wencui, Ao, Tianqi, and Chen, Wenqing

Published

2024

4. Triazine-containing porous organic polymers from Diels-Alder reactions for efficient molecular adsorption and photocatalytic degradation

Author

Jing, Aoming, Cao, Zuolin, Zhou, Jiao, Liang, Wencui, Gong, Xue, Sun, Haotian, Zeng, Ke, Liu, Hongxu, and Ren, Shijie

Published

2024

5. Prussian blue and its analogs: A robust platform for efficient capacitive deionization

Author

Gao, Ming, Xiao, Weilong, Miao, Luwei, Yang, Zhiqian, Liang, Wencui, Ao, Tianqi, Yang, Qiulin, and Chen, Wenqing

Published

2024

6. Hierarchical nickel cobaltite nanoneedle arrays armored flexible electrospinning carbon nanofibers membrane for electrochemical deionization

Author

Gao, Ming, Li, Jiaxin, Wang, Zhen, Yang, Zhiqian, Chen, Yi, Deng, Wenyang, Liang, Wencui, Ao, Tianqi, and Chen, Wenqing

Published

2024

7. One-dimensional electrospinning nanomaterials toward capacitive deionization: Fundamentals, development, and perspectives

Author

Yang, Zhiqian, Gao, Ming, Liang, Wencui, Ao, Tianqi, and Chen, Wenqing

Published

2023

8. Flexible ultrathin Nitrogen-Doped carbon mediates the surface charge redistribution of a hierarchical tin disulfide nanoflake electrode for efficient capacitive deionization

Author

Gao, Ming, Liang, Wencui, Yang, Zhiqian, Ao, Tianqi, and Chen, Wenqing

Published

2023

9. Recent advanced freestanding pseudocapacitive electrodes for efficient capacitive deionization

Author

Gao, Ming, Yang, Zhiqian, Liang, Wencui, Ao, Tianqi, and Chen, Wenqing

Published

2023

10. Flexible nitrogen-doped carbon nanofiber-reinforced hierarchical hollow iron oxide nanorods as a binder-free electrode for efficient capacitive deionization

Author

Gao, Ming, Li, Jiaxin, Wang, Yuan, Liang, Wencui, Yang, Zhiqian, Chen, Yi, Deng, Wenyang, Wang, Zhen, Ao, Tianqi, and Chen, Wenqing

Published

2023

11. Single-atom electrocatalysts templated by MOF for determination of levodopa

Author

Liang, Wencui, Gao, Ming, Li, Yangguang, Tong, Yanbin, and Ye, Bang-Ce

Published

2021

12. A robust electrochemical sensing based on bimetallic metal-organic framework mediated Mo2C for simultaneous determination of acetaminophen and isoniazid

Author

Liang, Wencui, Ren, Hailong, Li, Yangguang, Qiu, Huiqiang, and Ye, Bang-Ce

Published

2020

13. A novel electrochemical sensor for determination of hydroxyl radicals in living cells by coupling nanoporous gold layer with self-assembled 6-(Ferrocenyl) hexanethiol

Author

Xu, Yuwen, Wang, Dongyang, Zhang, Yu, Zhang, Junjie, Jiang, Shouyong, Liang, Wencui, Zhu, Tingting, and Ye, Bang-Ce

Published

2020

14. Nitrogen-rich porous carbon modified electrochemical sensor for the detection of acetaminophen

Author

Liang, Wencui, Liu, Longlong, Li, Yangguang, Ren, Hailong, Zhu, Tingting, Xu, Yuwen, and Ye, Bang-Ce

Published

2019

15. Porous Organic Polymers as Active Electrode Materials for Energy Storage Applications.

Author

Sun, Haotian, Li, Jingli, Liang, Wencui, Gong, Xue, Jing, Aoming, Yang, Wanru, Liu, Hongxu, and Ren, Shijie

Subjects

POROUS polymers, ENERGY storage, POLYMER electrodes, POROUS materials, ENERGY shortages, SODIUM ions

Abstract

Eco‐friendly and efficient energy production and storage technologies are highly demanded to address the environmental and energy crises. Porous organic polymers (POPs) are a class of lightweight porous network materials covalently linked by organic building blocks, possessing high surface areas, tunable pores, and designable components and structures. Due to their unique structural and compositional advantages, POPs have recently emerged as promising electrode materials for energy storage devices, particularly in the realm of supercapacitors and ion batteries. In this work, a comprehensive overview of recent progress and applications of POPs as electrode materials in energy storage devices, including the structural features and synthesis strategies of various POPs, as well as their applications in supercapacitors, lithium batteries, sodium batteries, and potassium batteries are provided. Finally, insights are provided into the future research directions of POPs in electrochemical energy storage technologies. It is anticipated that this work can provide readers with a comprehensive background on the design of POPs‐based electrode materials and ignite more research in the development of next‐generation energy storage devices. [ABSTRACT FROM AUTHOR]

Published

2024

16. Ratiometric electrochemical sensing based on Mo2C for detection of acetaminophen

Author

Zhu, Tingting, primary, Ren, Hailong, additional, Liang, Wencui, additional, Li, Yangguang, additional, Xu, Yuwen, additional, Dai, Miaojuan, additional, and Ye, Bang-Ce, additional

Published

2020

17. Ratiometric electrochemical sensing based on Mo2C for detection of acetaminophen.

Author

Zhu, Tingting, Ren, Hailong, Liang, Wencui, Li, Yangguang, Xu, Yuwen, Dai, Miaojuan, and Ye, Bang-Ce

Subjects

ACETAMINOPHEN, CARBON electrodes, DRINKING water, ELECTROCHEMICAL sensors, ELECTROLYTE solutions, NANOPARTICLES, DETECTION limit

Abstract

In this work, MoO2 nanoparticles were synthesized and annealed to form Mo2C nanoparticles. This is the first report of a ratiometric electrochemical sensor (R-ECS) for the detection of acetaminophen (AP), in which Mo2C is used as the sensing agent and ferrocene (FC) is used as an internal reference. FC (100 μM) is added directly to the electrolyte solution for convenient operation. The synthesized materials were fully characterized with respect to composition, morphology and electrochemical performance. The oxidation peak potentials of FC (0.196 V) and AP (0.364 V) can be completely separated by the Mo2C modified glassy carbon electrode, and their ratiometric signals are used for the quantification of AP. It was found that the oxidation peak currents of AP at separated potentials on Mo2C/GCE are linear with concentration in the range of 0.5–600 μM, and the detection limit is 0.029 μM (S/N = 3). Mo2C/GCE exhibited decent repeatability, reproducibility, stability, and selectivity. The sensor was then applied to measure AP in tap water and river water. [ABSTRACT FROM AUTHOR]

Published

2020