31 results on '"Jin, Xixiong"'
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2. Uncoordinated amino groups of MIL-101 anchoring cobalt porphyrins for highly selective CO2 electroreduction
3. Bi19Br3S27 nanorods for formate production from CO2 electroreduction with high efficiency and selectivity
4. Enhanced toluene oxidation by photothermal synergetic catalysis on manganese oxide embedded with Pt single-atoms
5. Exploring the enhancement effects of hetero-metal doping in CeO2 on CO2 photocatalytic reduction performance
6. A photo-excited electron transfer hyperchannel constructed in Pt-dispersed pyrimidine-modified carbon nitride for remarkably enhanced water-splitting photocatalytic activity
7. Modulating the Structure and Composition of Single‐Atom Electrocatalysts for CO2 reduction.
8. High Formate Selectivity and Deactivation Mechanism of CuS Nanoparticles in CO2 Electrocatalytic Reduction Reaction
9. Remarkably enhanced H2 evolution activity of oxidized graphitic carbon nitride by an extremely facile K2CO3-activation approach
10. High Formate Selectivity and Deactivation Mechanism of CuS Nanoparticles in CO2 Electrocatalytic Reduction Reaction.
11. Uncoordinated Amino Groups of Mil-101 Anchoring Cobalt Porphyrins for Highly Selective Co2 Electroreduction
12. Electronic Structure Regulations of Polymeric Carbon Nitride via Molecular Engineering for Enhanced Photocatalytic Activity
13. Metal–organic framework derived carbon supported Cu–In nanoparticles for highly selective CO2 electroreduction to CO
14. Electron Configuration Modulation of Nickel Single Atoms for Elevated Photocatalytic Hydrogen Evolution
15. Mild generation of surface oxygen vacancies on CeO2 for improved CO2 photoreduction activity
16. Metal–organic framework derived carbon supported Cu–In nanoparticles for highly selective CO2 electroreduction to CO.
17. Oxygen Vacancy Generation and Stabilization in CeO2–x by Cu Introduction with Improved CO2 Photocatalytic Reduction Activity
18. Carbon-vacancy modified graphitic carbon nitride: enhanced CO2 photocatalytic reduction performance and mechanism probing
19. Mild generation of surface oxygen vacancies on CeO2 for improved CO2 photoreduction activity.
20. Metal–organic framework derived carbon supported Cu–In nanoparticles for highly selective CO2electroreduction to COElectronic supplementary information (ESI) available. See DOI: 10.1039/d1cy00843a
21. 2D-2D MnO2/g-C3N4 heterojunction photocatalyst: In-situ synthesis and enhanced CO2 reduction activity
22. Oxygen Vacancy Generation and Stabilization in CeO2–x by Cu Introduction with Improved CO2 Photocatalytic Reduction Activity.
23. Carbon-vacancy modified graphitic carbon nitride: enhanced CO2 photocatalytic reduction performance and mechanism probing.
24. MoS2 quantum dot decorated g-C3N4 composite photocatalyst with enhanced hydrogen evolution performance
25. A post-grafting strategy to modify g-C3N4 with aromatic heterocycles for enhanced photocatalytic activity
26. A post-grafting strategy to modify g-C3N4 with aromatic heterocycles for enhanced photocatalytic activity.
27. MoS2 quantum dot decorated g-C3N4 composite photocatalyst with enhanced hydrogen evolution performance.
28. A MOF@MOF S-scheme Heterojunction with Lewis Acid-Base Sites Synergistically Boosts Cocatalyst-Free CO2 Cycloaddition.
29. Modulating the Structure and Composition of Single-Atom Electrocatalysts for CO 2 reduction.
30. High Formate Selectivity and Deactivation Mechanism of CuS Nanoparticles in CO 2 Electrocatalytic Reduction Reaction.
31. Mild generation of surface oxygen vacancies on CeO 2 for improved CO 2 photoreduction activity.
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