225 results on '"Ji, Yongjun"'
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2. The dual single-atom In and P co-promoters boost dimethyldichlorosilane production in the Rochow-Müller reaction
3. Transition metal-based catalysts for selective catalytic reduction of NO by CO: A state-of-the-art review
4. A multitask context-aware approach for design lesson-learned knowledge recommendation in collaborative product design
5. Engineering oxygen vacancies and localized amorphous regions in CuO-ZnO separately boost catalytic reactivity and selectivity
6. Dual single-atom Ce-Ti/MnO2 catalyst enhances low-temperature NH3-SCR performance with high H2O and SO2 resistance
7. Interfacial oxygen vacancies at Co3O4-CeO2 heterointerfaces boost the catalytic reduction of NO by CO in the presence of O2
8. Partially charged single-atom Ru supported on ZrO2 nanocrystals for highly efficient ethylene hydrosilylation with triethoxysilane
9. A hypernetwork-based context-aware approach for design lesson-learned knowledge proactive feedback in design for manufacturing
10. Introduction of ZnO, Sn, and P promoters in CuO/CeO2 catalysts for improved production of dimethyldichlorosilane in the Rochow-Müller reaction
11. Atomically dispersed Sn incorporated into carbon matrix for stable electrochemical lithium storage
12. Use of the active-phase Cu3Si alloy as superior catalyst to direct synthesis of trichlorosilane via silicon hydrochlorination
13. Impact of Viscoelasticity on Sand-Carrying Ability of Viscous Slickwater and Its Sand-Carrying Threshold in Hydraulic Fractures
14. Architectural Cu2O@CuO mesocrystals as superior catalyst for trichlorosilane synthesis
15. Approach to generating the right active phase in the “Direct” synthesis of trimethoxysilanes using the CuCl-Cu2O catalyst
16. High‐Index Faceted Cu2O@CuO Mesocrystals Act as Efficient Catalyst for Si Hydrochlorination to Trichlorosilane.
17. High‐Index Faceted Cu2O@CuO Mesocrystals Act as Efficient Catalyst for Si Hydrochlorination to Trichlorosilane
18. “四脚兽穿新装”—创碱性析氢新纪录
19. A general bottom-up synthesis of CuO-based trimetallic oxide mesocrystal superstructures for efficient catalytic production of trichlorosilane
20. ZnO supported on Cu2O{1 0 0} enhances charge transfer in dimethyldichlorosilane synthesis
21. Double-shelled hollow LaNiO3 nanocage as nanoreactors with remarkable catalytic performance: Illustrating the special morphology and performance relationship
22. Co Single Atoms and CoOxNanoclusters Anchored on Ce 0.75 Zr 0.25 O 2 Synergistically Boosts the NO Reduction by CO
23. Impact of the Cu2O microcrystal planes on active phase formation in the Rochow reaction and an experimental and theoretical understanding of the reaction mechanism
24. Converting industrial waste contact masses into effective multicomponent copper-based catalysts for the Rochow process
25. Oxygen-doped carbon host with enhanced bonding and electron attraction abilities for efficient and stable SnO2/carbon composite battery anode
26. Forming multiple heterojunctions in ZnO/Cu/Cu2O boosts dimethyldichlorosilane production in Rochow-Müller reaction
27. Hierarchical zinc-copper oxide hollow microspheres as active Rochow reaction catalysts: The formation and effect of charge transferable interfaces
28. Promoting effect of In2O3 on CuO for the Rochow reaction: The formation of P–N junctions at the hetero-interfaces
29. Co Single Atoms and CoOx Nanoclusters Anchored on Ce0.75Zr0.25O2 Synergistically Boosts the NO Reduction by CO.
30. Diffusion-controlled synthesis of Cu-based for the rochow reaction
31. Hydrogen Spillover‐Promoted Hydrogen Evolution onto Copper
32. Tailoring the Electronic Structure of Single Ag Atoms in Ag/WO3 for Efficient NO Reduction by CO in the Presence of O2
33. Highly Efficient Hydrosilylation of Ethyne over Pt/ZrO2 Catalysts with Size-Dependent Metal–Support Interactions
34. Negatively Charged Single-Atom Pt Catalyst Shows Superior SO2 Tolerance in NOx Reduction by CO
35. In-Situ Catalytic Preparation of Two-Dimensional BCN/Graphene Composite for Anti-Corrosion Application
36. Recent Advances of Cu-Based Catalysts for NO Reduction by CO under O2-Containing Conditions
37. Novel leaflike Cu–O–Sn nanosheets as highly efficient catalysts for the Rochow reaction
38. One-pot hydrothermal growth of raspberry-like CeO2 on CuO microsphere as copper-based catalyst for Rochow reaction
39. Synthesis and Applications of Copper-Based Catalysts.
40. Enhancement of photocatalytic properties of TiO2 nanoparticles doped with CeO2 and supported on SiO2 for phenol degradation
41. Isolating Contiguous Ir Atoms and Forming Ir–W Intermetallics with Negatively Charged Ir for Efficient NO Reduction by CO
42. Engineering oxygen vacancies and localized amorphous regions in CuO-ZnO separately boost catalytic reactivity and selectivity
43. Isolating Single Sn Atoms in CuO Mesocrystal to Form Ordered Atomic Interfaces: An Effective Strategy for Designing Highly Efficient Mesocrystal Catalysts
44. Dual single-atom Ce-Ti/MnO2 catalyst enhances low-temperature NH3-SCR performance with high H2O and SO2 resistance
45. Morphology-dependent catalytic properties of nanocupric oxides in the Rochow reaction
46. Rambutan-like hierarchically heterostructured CeO2-CuO hollow microspheres: Facile hydrothermal synthesis and applications
47. Enhancing dimethyldichlorosilane production in Rochow-Müller reaction by adding ZnO-Sn-P co-promoter in CuO/SiO2
48. Combined 3D-QSAR modeling and molecular docking study on azacycles CCR5 antagonists
49. One-dimensional Cu-based catalysts with layered Cu–Cu2O–CuO walls for the Rochow reaction
50. Porous bimetallic Pt-Fe nanocatalysts for highly efficient hydrogenation of acetone
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