Jiangzhou Xie
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Explore the profile of Jiangzhou Xie including associated specialties, affiliations and a list of published articles.
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25
Citations
26
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Recent Articles
1.
Shi L, Zhang F, Wang X, Li J, Liu Y, Fu W, et al.
ACS Appl Mater Interfaces
. 2025 Feb;
17(10):15413-15422.
PMID: 40014854
Improving the electrocatalytic conversion of formate in alkaline solutions is crucial for the commercial application of formate fuel cells. However, palladium-based catalysts used for formate oxidation reactions (FOR) face challenges...
2.
Liu Y, Fu W, Yao S, Wang S, Ji Y, Li J, et al.
Small
. 2024 Sep;
20(51):e2407690.
PMID: 39344210
The strategic enhancement of manganese-oxygen (Mn─O) covalency is a promising approach to improve the intercalation kinetics of sodium ions (Na⁺) in manganese dioxide (MnO). In this study, an augmenting Mn─O...
3.
Wang S, Yao S, Zhang F, Ji K, Ji Y, Li J, et al.
Angew Chem Int Ed Engl
. 2024 Sep;
64(4):e202415997.
PMID: 39305188
The pressing demand for large-scale energy storage solutions has propelled the development of advanced battery technologies, among which zinc-ion batteries (ZIBs) are prominent due to their resource abundance, high capacity,...
4.
Hou Z, Liu Y, Yao S, Wang S, Ji Y, Fu W, et al.
Mater Horiz
. 2024 Sep;
11(22):5674-5683.
PMID: 39224063
In the quest for efficient supercapacitor materials, manganese-based layered oxide cathodes stand out for their cost-effectiveness and high theoretical capacity. However, their progress is hindered by the Jahn-Teller (J-T) distortion...
5.
Tang Z, Shi L, Dai N, Zhang F, Wang X, Wang S, et al.
ACS Appl Mater Interfaces
. 2024 Jun;
16(27):35074-35083.
PMID: 38919051
The electrocatalytic conversion of formate in alkaline solutions is of paramount significance in the realm of fuel cell applications. Nonetheless, the adsorptive affinity of adsorbed hydrogen (H) on the catalyst...
6.
Wang S, Yao S, Dai N, Fu W, Liu Y, Ji K, et al.
Angew Chem Int Ed Engl
. 2024 Jun;
63(35):e202408414.
PMID: 38850273
Transition metal oxides (TMOs) are promising cathode materials for aqueous zinc ion batteries (ZIBs), however, their performance is hindered by a substantial Hubbard gap, which limits electron transfer and battery...
7.
Xiong Y, Li J, Wang X, Chi X, Li S, Sun Y, et al.
Inorg Chem
. 2024 Apr;
63(17):7886-7895.
PMID: 38621298
In the quest for proficient electrocatalysts for ammonia's electrocatalytic nitrogen reduction, cobalt oxides, endowed with a rich d-electron reservoir, have emerged as frontrunners. Despite the previously evidenced prowess of CoO...
8.
Yao S, Ji Y, Wang S, Liu Y, Hou Z, Wang J, et al.
Angew Chem Int Ed Engl
. 2024 Apr;
63(23):e202404834.
PMID: 38588076
Transition metal oxides (TMOs) are key in electrochemical energy storage, offering cost-effectiveness and a broad potential window. However, their full potential is limited by poor understanding of their slow reaction...
9.
Tang Z, Shi L, Zhang K, Zhang F, Sun Y, Wang X, et al.
J Phys Chem Lett
. 2024 Mar;
15(12):3354-3362.
PMID: 38498427
This study addresses the critical challenge in alkaline direct formate fuel cells (DFFCs) of slow formate oxidation reaction (FOR) kinetics as a result of strong hydrogen intermediate (H) adsorption on...
10.
Yao S, Wang S, Wang J, Hou Z, Gao X, Liu Y, et al.
Small
. 2024 Feb;
20(30):e2307482.
PMID: 38412428
Manganese-based oxides (MnO) suffer from sluggish charge diffusion kinetics and poor cycling stability in sodium ion storage. Herein, an interfacial electric field (IEF) in CeO/MnO is constructed to obtain high...