付信朴

-
副研究员
硕士生导师
- 性别:男
- 学历:博士研究生毕业
- 学位:博士
- 在职信息:在职
- 所在单位:化学与化工学院
- 入职时间: 2022-06-30
- 所属院系:
化学与化工学院
- 电子邮箱:bce0a3054d09ecc6e71e32a744c8b17e0bad5267391331c0c26fce6c0950d5b5961cad5568bd9c6896cfeac7cf4fafe39db53adb97f83da3c380016e0d50c28a8df5331ad9823ec3b38412d6b9e393006110f6044d087a2913686d43558d25cafe24d149c01630e56dfeb778f09df64ecba396b7fe31374eeb9f7f55585880b9
访问量:
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[1]
闫玲玉.
Atmosphere-induced Ru-Ov-CeO2 interface for alleviating hydrogen inhibitory effect toward ammonia decomposition.
Applied Catalysis B-Environment and Energy,
2025.
-
[2]
刘浩鑫.
Direct cleavage of C=O double bond in CO2 by the subnano MoOx surface on Mo2N.
NATURE COMMUNICATIONS,
2024.
-
[3]
闫玲玉.
Atmosphere-induced Ru-Ov-CeO2 interface for alleviating hydrogen inhibitory effect toward ammonia decomposition.
Applied Catalysis B-Environmental,
378,
2025.
-
[4]
付信朴.
Insight into the Role of Isolated Gold Atoms-Ceria Conjunction in Catalyzing the Water-Gas Shift Reaction?.
Chinese Journal of Chemistry,
2023.
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[5]
.
CO-Tolerant Pt1-MoO x /Mo2N Catalyst for Efficient Activation of C-H and O-H Bonds toward Alcohol Dehydrogenation.
J. AM. CHEM. SOC.,
147,
12491-12502,
2025.
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[6]
.
An air-stable, reusable Ni@Ni(OH)2 nanocatalyst for CO2/bicarbonate hydrogenation to formate.
Nanoscale,
2021.
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[7]
付信朴.
Facile fabrication of CeO2-Al2O3 hollow sphere with atomically dispersed fe via spray pyrolysis.
Inorganic Chemistry,
2021.
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[8]
.
Boosting reactivity of water-gas shift reaction by synergistic function over CeO2-x/CoO1-x/Co dual interfacial structures.
NATURE COMMUNICATIONS,
14,
2023.
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[9]
.
Insight into the Role of Isolated Gold Atoms-Ceria Conjunction in Catalyzing the Water-Gas Shift Reaction.
Chinese Journal of Chemistry,
42,
636-644,
2024.
-
[10]
付信朴.
Supported Fe2C catalysts originated from Fe2N phase and active for Fischer-Tropsch synthesis.
Applied Catalysis B: Environmental,
284,
2021.
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[11]
周璐璐.
Constructing Efficient Nickel Catalysts on CeOx Nanoparticles Stabilized Using γ-Al2O3 to Catalyze Ammonia Decomposition for Hydrogen Production.
ACS APPLIED NANO MATERIALS,
2023.
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[12]
付信朴.
Fabrication and Mechanism Study of Clustered Au/CeO<sub>2</sub> Catalyst for the CO Oxidation Reaction.
Acta Chimica Sinica,
81,
874,
2023.