Electronic engineering induced ultrafine non-noble nanoparticles for high-performance hydrogen evolution from ammonia borane hydrolysis

被引:5
|
作者
Tang, Siyuan [1 ]
Xu, Linlin [2 ]
Ding, Xiang [1 ]
Lv, Quanjiang [1 ]
Qin, Haotian [1 ]
Li, Aosong [1 ]
Yang, Xinchun [3 ]
Han, Jian [4 ]
Song, Fuzhan [1 ]
机构
[1] Jiangsu Univ, Inst Adv Mat, Sch Mat Sci & Engn, Zhenjiang 212013, Jiangsu, Peoples R China
[2] Qingdao Hengxing Univ Sci & Technol, Qingdao 266000, Peoples R China
[3] Chinese Acad Sci, Inst Technol Carbon Neutral, Shenzhen Inst Adv Technol, Fac Mat Sci & Energy Engn,Shenzhen Key Lab Energy, Shenzhen 518055, Peoples R China
[4] Penn State Univ, Dept Chem, University Pk, PA 16802 USA
来源
FUEL | 2025年 / 381卷
关键词
Hydrogen production; Supported nanocatalyst; Ammonia borane hydrolysis; Synergistic effect; Electronic configuration; METAL-ORGANIC FRAMEWORK; FORMIC-ACID; CATALYTIC HYDROLYSIS; EFFICIENT CATALYST; PD NANOPARTICLES; DEHYDROGENATION; CARBON; GENERATION; IMMOBILIZATION; HYDROXIDE;
D O I
10.1016/j.fuel.2024.133424
中图分类号
TE [石油、天然气工业]; TK [能源与动力工程];
学科分类号
0807 ; 0820 ;
摘要
The exploration of heterogeneous supported nanocatalysts with high performance as well as low cost is vital but still challenged for utilization of sustainable hydrogen fuel. In this work, bimetallic CuNi nanoparticles are immobilized on zirconia/nitrogen doped porous carbon/reduced graphene oxide (ZrO2/NC/RGO) derived from NH2-UiO-66/GO precursor. Thanks to the usage of ZrO2/NC/RGO, the well-dispersed CuNi NPs with the size of 2.5 nm were successfully obtained via a facile wet-chemical co-reduction method. By virtue of the synergistic effect induced by solid supports, the resulted Cu0.8Ni0.2@ZrO2/NC/RGO nanocatalysts display excellent activity of catalyzing ammonia borane hydrolysis, with an outstanding overall turnover frequency (TOF) value of as high as 40.9 molH2 molcat- 1 min- 1 at mild condition. Such an enhanced catalytic performance is attributed that zirconium oxide combined with N species could induce a strong synergistic effect to efficiently adjust the electronic distribution, optimize the d-band center as well as favor the Femi level of CuNi catalytic sites, resulting in an improving kinetics of ammonia borane hydrolysis (ABH). This work not only deeply explores the catalytic mechanism of ABH, but also provides a promising strategy for construction of heterogeneous nanocatalytic systems with high performance for industrial application.
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页数:8
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