Pengzuo Chen
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Explore the profile of Pengzuo Chen including associated specialties, affiliations and a list of published articles.
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Articles
39
Citations
401
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Recent Articles
1.
Jin G, Ren X, Lin C, He B, Chen P
J Colloid Interface Sci
. 2025 Feb;
687:432-438.
PMID: 39970583
The electrochemical oxidation of cyclohexanone to produce adipic acid (AA), coupled with hydrogen (H) production, represents a promising strategy. However, the development of low-cost and high-performance electrodes remains a significant...
2.
Zhou G, Cheng H, Wu Y, Tong Y, Dai R, Zhu J, et al.
Angew Chem Int Ed Engl
. 2025 Feb;
64(10):e202420353.
PMID: 39894770
Paired electrosynthetic technology is of significance to realize the co-production of high-added value chemicals. However, exploiting efficient bifunctional electrocatalyst of the concurrent electrocatalysis to achieve the industrial-level performance is still...
3.
Ren X, Lin C, Zhou G, He J, Tong Y, Chen P
J Colloid Interface Sci
. 2024 Jul;
676:13-21.
PMID: 39018806
Coupling hydrazine oxidation reaction (HzOR) with hydrogen evolution reaction (HER) has been widely concerned for high efficiency of green hydrogen preparation with low energy consumption. However, the lacking of bifunctional...
4.
He J, Tong Y, Wang Z, Zhou G, Ren X, Zhu J, et al.
Proc Natl Acad Sci U S A
. 2024 Jul;
121(30):e2405846121.
PMID: 39012829
High-entropy compounds have been emerging as promising candidates for electrolysis, yet their controllable electrosynthesis strategy remains a formidable challenge because of the ambiguous ionic interaction and codeposition mechanism. Herein, we...
5.
Wu W, Tong Y, Chen P
Small
. 2023 Oct;
20(9):e2305562.
PMID: 37845037
Electrochemical carbon dioxide reduction (CO RR), as an emerging technology, can combine with sustainable energies to convert CO into high value-added products, providing an effective pathway to realize carbon neutrality....
6.
Li K, Tong Y, He J, Liu X, Chen P
Mater Horiz
. 2023 Sep;
10(11):5277-5287.
PMID: 37750287
The hydrazine oxidation reaction (HzOR) is considered as a promising alternative process of the oxygen evolution reaction (OER) to realize more energy-efficient hydrogen generation. However, the lack of highly active...
7.
Li K, He J, Guan X, Tong Y, Ye Y, Chen L, et al.
Small
. 2023 Jun;
19(42):e2302130.
PMID: 37345550
Exploiting highly active and bifunctional catalysts for both hydrogen evolution reaction (HER) and hydrazine oxidation reaction (HzOR) is a prerequisite for the hydrogen acquisition. High-entropy materials have received widespread attention...
8.
Huang W, Tong Y, Feng D, Guo Z, Ye R, Chen P
ChemSusChem
. 2023 Feb;
16(10):e202202078.
PMID: 36750745
Rational design of efficient electrocatalysts is highly imperative but still a challenge for overall water splitting. Herein, we construct self-supported Co N nanowire arrays with different Mo doping contents by...
9.
Chen P, Li K, Ye Y, Wu D, Tong Y
Dalton Trans
. 2023 Feb;
52(8):2262-2271.
PMID: 36723109
Developing high-performance and low-cost self-supporting electrodes as pH-universal electrocatalysts for the hydrogen-evolution reaction (HER) and realizing high-quality hydrogen production at a high current density are highly desirable, but are hugely...
10.
Feng D, Ye R, Tong Y, Ren X, Chen P
J Colloid Interface Sci
. 2023 Jan;
636:425-434.
PMID: 36641818
Electrochemical urea electrolysis has been regarded as a promising strategy to replace traditional water-splitting technology to achieve hydrogen fuel due to its cost savings and high energy efficiency. Designing efficient...