Your search keyword '"Xue, Hongyao"' showing total 19 results

1. Hydrogen evolution reaction activity enhancement from active site turnover mechanism

Author

Wang, Jiacheng, Yang, Tongqing, Li, Xiyue, Zhang, Haiqin, Zhang, Yixue, He, Yan, and Xue, Hongyao

Published

2024

2. Magnetic field modulation of high spin hexa-coordinated iron sites to enhance catalytic activity

Author

Xue, Hongyao, Wang, Jiacheng, Cheng, He, Zhang, Haiqin, Li, Xiyue, Sun, Jianbo, Wang, Xinyuan, Lin, Liguang, Zhang, Yixue, Liao, Xiaobin, and He, Yan

Published

2024

3. Manganese doping motivated cobalt site and unique hexagonal morphology to boost electrochemical water electrolysis

Author

Xue, Hongyao, Wang, Jiacheng, Zhang, Ziming, Li, Xiyue, Sun, Jianbo, Zhang, Yixue, Bai, Yang, and Li, Zhenjiang

Published

2024

4. Unleashing the charge compensation effect for enhanced electrochemical water-splitting using low-valent magnesium-inserted CoP

Author

Wang, Yong, Lian, Tongtong, Zhang, Yaowen, Gao, Chenghai, Xin, Lei, Xue, Hongyao, Zhang, Yixue, Zhang, Haiqin, Chen, Lixin, and Sun, Keming

Published

2023

5. Experimental study on the characteristics of loop heat pipe with modified carbon fiber felt wick

Author

Zhang, Yixue, Liu, Junyu, Wang, Jiacheng, Luan, Tao, Chen, He, and Xue, Hongyao

Published

2023

6. Experimental study on the influence of surface modification methods of carbon fiber felt on the operation and heat transfer characteristics of loop heat pipes

Author

Zhang, Yixue, Liu, Junyu, Cheng, He, Luan, Tao, Yang, Tongqing, and Xue, Hongyao

Published

2023

7. Stimulate the hidden catalysis potential and exposure of nickel site in NiSe@CNTs result in ultra-high HER/OER activity and stability

Author

Xue, Hongyao, Yang, Tongqing, Zhang, Ziming, Zhang, Yixue, Geng, Zhihong, and He, Yan

Published

2023

8. Phosphorus-doped MoS2 with sulfur vacancy defects for enhanced electrochemical water splitting

Author

Xue, Hongyao, Meng, Alan, Chen, Chunjun, Xue, Hongyan, Li, Zhenjiang, and Wang, Chuansheng

Published

2022

9. Controllable oxygen vacancies and morphology engineering: Ultra-high HER/OER activity under base–acid conditions and outstanding antibacterial properties

Author

Xue, Hongyao, Meng, Alan, Yang, Tongqing, Li, Zhenjiang, and Chen, Chunjun

Published

2022

10. 3D urchin like V-doped CoP in situ grown on nickel foam as bifunctional electrocatalyst for efficient overall water-splitting

Author

Xue, Hongyao, Meng, Alan, Zhang, Haiqin, Lin, Yusheng, Li, Zhenjiang, and Wang, Chuansheng

Published

2021

11. Co–Pyridinic-N Bond Constructed at the Interface of CoxP and N-Doped Carbon to Effectively Facilitate Oxygen Reduction

Author

Xue, Hongyao, primary, Meng, Alan, additional, Lian, Tongtong, additional, Yang, Tongqing, additional, Gao, Jiangshan, additional, Singh, Chandra Veer, additional, Geng, Zhihong, additional, Chen, Lixin, additional, and Li, Zhenjiang, additional

Published

2023

12. Co–Pyridinic‑N Bond Constructed at the Interface of CoxP and N‑Doped Carbon to Effectively Facilitate Oxygen Reduction.

Author

Xue, Hongyao, Meng, Alan, Lian, Tongtong, Yang, Tongqing, Gao, Jiangshan, Singh, Chandra Veer, Geng, Zhihong, Chen, Lixin, and Li, Zhenjiang

Published

2023

13. Phosphorus-doped MoS2 with sulfur vacancy defects for enhanced electrochemical water splitting

Author

Xue, Hongyao, primary, Meng, Alan, additional, Chen, Chunjun, additional, Xue, Hongyan, additional, Li, Zhenjiang, additional, and Wang, Chuansheng, additional

Published

2021

14. Phosphorus-doped MoS2 with sulfur vacancy defects for enhanced electrochemical water splitting.

Author

Xue, Hongyao, Meng, Alan, Chen, Chunjun, Xue, Hongyan, Li, Zhenjiang, and Wang, Chuansheng

Published

2022

15. Engineering ultrahigh-specific-capacity α-Fe2O3 nanoparticles and Ni(OH)2/Co0.85Se nanostructures separately anchored on N-doped graphene nanotubes toward alkaline rechargeable battery

Author

Meng, Alan, primary, Shen, Tong, additional, Song, Guanying, additional, Huang, Tianqi, additional, Lin, Yusheng, additional, Xue, Hongyao, additional, Yuan, Xiangcheng, additional, Zhao, Jian, additional, and Li, Zhenjiang, additional

Published

2020

16. Scalable and energy-efficient synthesis of CoxP for overall water splitting in alkaline media by high energy ball milling

Author

Xue, Hongyao, primary, Zhang, Haiqin, additional, Fricke, Sebastian, additional, Lüther, Marco, additional, Yang, Zijiang, additional, Meng, Alan, additional, Bremser, Wolfgang, additional, and Li, Zhenjiang, additional

Published

2020

17. Phosphorus-doped MoS2with sulfur vacancy defects for enhanced electrochemical water splitting

Author

Xue, Hongyao, Meng, Alan, Chen, Chunjun, Xue, Hongyan, Li, Zhenjiang, and Wang, Chuansheng

Abstract

MoS2is a promising electrocatalyst because of its natural abundance and outstanding electrochemical stability. However, the poor conductivity and low activity limit its catalytic performance; furthermore, MoS2is unable to satisfy the requirements of most industrial applications. In this study, to obtain a P-doped MoS2catalyst with S vacancy defects, P is inserted into the MoS2matrix viaa solid phase ion exchange at room temperature. The optimal P-doping amount is 11.4 wt%, and the resultant catalyst delivers excellent electrocatalytic properties for the hydrogen evolution reaction (HER) and oxygen evolution reaction (OER) with the corresponding overpotentials of 93 and 316 mV at 10 mA cm−2in an alkaline solution; these values surpass the overpotentials of most previously reported MoS2-based materials. Theoretical calculations and results demonstrate that the synergistic effect of the doped P, which forms active centers in the basal plane of MoS2, and S vacancy defects caused by P doping intensifies the intrinsic electronic conductivity and electrocatalytic activity of the catalyst. Density functional theory calculations demonstrate that P optimizes the free energy of the MoS2matrix for hydrogen adsorption, thereby considerably increasing the intrinsic activity of the doped catalyst for the HER compared with that observed from pristine MoS2. The enhanced catalytic activity of P-doped MoS2for the OER is attributed to the ability of the doped P which facilitates the adsorption of hydroxyl and hydroperoxy intermediates and reduces the reaction energy barrier. This study provides a new environmentally friendly and convenient solid-phase ion exchange method to improve the electrocatalytic capability of two-dimensional transition-metal dichalcogenides in large-scale applications.

Published

2022

18. One-step synthesis of flower-like Bi2O3/Bi2Se3 nanoarchitectures and NiCoSe2/Ni0.85Se nanoparticles with appealing rate capability for the construction of high-energy and long-cycle-life asymmetric aqueous batteries

Author

Meng, Alan, primary, Yuan, Xiangcheng, additional, Shen, Tong, additional, Li, Zhenjiang, additional, Jiang, Qingyan, additional, Xue, Hongyao, additional, Lin, Yusheng, additional, and Zhao, Jian, additional

Published

2019

19. One-step synthesis of flower-like Bi2O3/Bi2Se3 nanoarchitectures and NiCoSe2/Ni0.85Se nanoparticles with appealing rate capability for the construction of high-energy and long-cycle-life asymmetric aqueous batteries

Author

Meng, Alan, Yuan, Xiangcheng, Shen, Tong, Li, Zhenjiang, Jiang, Qingyan, Xue, Hongyao, Lin, Yusheng, and Zhao, Jian

Abstract

The intelligent construction of electrode nanostructures with unique morphologies is of admirable importance for increasing the energy storage capacity of highly efficient supercapacitor devices. In this study, the negative electrode material Bi2O3/Bi2Se3 nanoflower (Bi2O3/Bi2Se3 NFs) hybrid was first fabricated via a simple one-step solvothermal approach; due to the favorable conductivity of Bi2Se3, high theoretical capacity of Bi2O3 and their distinctive nanostructures, the achieved Bi2O3/Bi2Se3 NFs exhibited the maximum specific capacity of 132.7 mA h g−1 (∼531 F g−1) at 1 A g−1 and the superior rate capability of 113.8 mA h g−1 (∼455 F g−1) at 10 A g−1. Moreover, the positive electrode material NiCoSe2/Ni0.85Se nanoparticles (NiCoSe2/Ni0.85Se NPs) obtained by an electrodeposition method delivered the high specific capacity of 248.4 mA h g−1 (∼1788 F g−1) at 1 A g−1 as well as the appealing rate property of ∼84% capacity retention when the current density was increased by 100 times (i.e., 100 A g−1). More significantly, it was found that the assembled Bi2O3/Bi2Se3 NFs//NiCoSe2/Ni0.85Se NP asymmetric aqueous battery (AAB) device achieved the extraordinary energy density of 88.4 W h kg−1 at the power density of 2.4 kW kg−1 along with a durable lifespan (maintaining the capacity retention of up to 91.5% even after 10 000 cycles). Consequently, the design strategy and novel perspectives reported herein not only hold extensive promise for expanding the preparation techniques of morphology-controlled composites with robust electrochemical properties but also promote the practical applications of newly emerging metal selenides in next-generation aqueous batteries. [ABSTRACT FROM AUTHOR]

Published

2019