Xiaojun Gu
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Explore the profile of Xiaojun Gu including associated specialties, affiliations and a list of published articles.
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Articles
54
Citations
214
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Recent Articles
1.
Wang X, Rong G, Gao R, Fan G, Guo Y, Han C, et al.
Angew Chem Int Ed Engl
. 2025 Feb;
:e202501297.
PMID: 39930967
The rational design of single-atom catalysts with precise coordination environment and high separation efficiency of photogenerated carriers is critical yet challenging to achieve efficient photocatalytic nitrogen reduction. Herein, we design...
2.
Hou W, Gao Y, Huang S, Tian P, Cao Y, Han C, et al.
Small
. 2024 Dec;
21(1):e2404743.
PMID: 39623780
Zn metal is the most attractive anode material for aqueous batteries, yet it encounters challenges from dendrites. Here, based on lanthanum trifluoromethanesulfonate (La(OTf))-based electrolyte, the idea of tailoring the electrode...
3.
Wang D, Fan G, Luan D, Guo Y, Gu X, Lou X
Adv Mater
. 2024 Nov;
36(50):e2408580.
PMID: 39506426
Electrocatalytic reduction of nitric oxide (NO) to ammonia (NH) represents a potential solution for improving the disrupted nitrogen cycle balance. Unfortunately, designing efficient electrocatalysts for NO reduction reaction (NORR) remains...
4.
Guo S, Zhang J, Fan G, Shen A, Wang X, Guo Y, et al.
Angew Chem Int Ed Engl
. 2024 Jun;
63(39):e202409698.
PMID: 38924667
While the ambient N reduction to ammonia (NH) using HO as hydrogen source (2N+6HO=4NH+3O) is known as a promising alternative to the Haber-Bosch process, the high bond energy of N≡N...
5.
Pei Z, Li Y, Fan G, Guo Y, Luan D, Gu X, et al.
Small
. 2024 May;
20(38):e2403808.
PMID: 38770988
Direct electrosynthesis of hydrogen peroxide (HO) with high production rate and high selectivity through the two-electron oxygen reduction reaction (2eORR) offers a sustainable alternative to the energy-intensive anthraquinone technology but...
6.
Han Y, Fan G, Guo Y, Guo S, Ding J, Han C, et al.
Angew Chem Int Ed Engl
. 2024 Apr;
63(29):e202406007.
PMID: 38687057
While the mild production of syngas (a mixture of H and CO) from CO and HO is a promising alternative to the coal-based chemical engineering technologies, the inert nature of...
7.
Wang X, Fan G, Guo S, Gao R, Guo Y, Han C, et al.
Angew Chem Int Ed Engl
. 2024 Mar;
63(22):e202404258.
PMID: 38454791
Engineering advantageous defects to construct well-defined active sites in catalysts is promising but challenging to achieve efficient photocatalytic NH synthesis from N and HO due to the chemical inertness of...
8.
Li Y, Guo Y, Fan G, Luan D, Gu X, Lou X
Angew Chem Int Ed Engl
. 2023 Dec;
63(8):e202317572.
PMID: 38116911
Exploring unique single-atom sites capable of efficiently reducing O to H O while being inert to H O decomposition under light conditions is significant for H O photosynthesis, but it...
9.
Zeng Y, Pei Z, Guo Y, Luan D, Gu X, Lou X
Angew Chem Int Ed Engl
. 2023 Sep;
62(45):e202312145.
PMID: 37728430
Constructing multifunctional interphases to suppress the rampant Zn dendrite growth and detrimental side reactions is crucial for Zn anodes. Herein, a phytic acid (PA)-ZnAl coordination compound is demonstrated as a...
10.
Li Y, Guo Y, Luan D, Gu X, Lou X
Angew Chem Int Ed Engl
. 2023 Sep;
62(44):e202310847.
PMID: 37698180
Developing highly efficient catalytic sites for O reduction to H O , while ensuring the fast injection of energetic electrons into these sites, is crucial for artificial H O photosynthesis...