123 results on '"Duyar, Melis S"'
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2. Contributors
3. Integrated CO2 capture and dynamic catalysis for CO2 recycling in a microbrewery
4. Feasibility of green mechanochemical synthesis for dual function materials preparation
5. Construction of complex metal nanoparticles via solid-phase ion diffusion for sustainable catalysis
6. Textile microfibers valorization by catalytic hydrothermal carbonization toward high-tech carbonaceous materials
7. Switchable catalysis for methanol and synthetic natural gas synthesis from CO2: A techno-economic investigation
8. Design of mesoporous ZnCoSiOx hollow nanoreactors with specific spatial distribution of metal species for selective CO2 hydrogenation
9. The direct synthesis of dimethyl ether (DME) from landfill gas: A techno-economic investigation
10. Versatile Ni-Ru catalysts for gas phase CO2 conversion: Bringing closer dry reforming, reverse water gas shift and methanation to enable end-products flexibility
11. Recent advances in carbon dioxide capture for process intensification
12. Design of two-dimensional metal–organic framework nanosheets for emerging applications
13. A universal nanoreactor strategy for scalable supported ultrafine bimetallic nanoparticles synthesis
14. Low-pressure methanol synthesis from CO2 over metal-promoted Ni-Ga intermetallic catalysts
15. Ni5Ga3 catalysts for CO2 reduction to methanol: Exploring the role of Ga surface oxidation/reduction on catalytic activity
16. The Need for Flexible Chemical Synthesis and How Dual-Function Materials Can Pave the Way
17. Techno-economic evaluation of novel dual-function reactor for direct air capture applying superstructure optimisation
18. Chapter 5 - Catalytic processes for fuels production from CO2-rich streams: Opportunities for industrial flue gases upgrading
19. 8. CO2 capture and catalytic conversion using solids
20. The Need for Flexible Chemical Synthesis and How Dual-Function Materials Can Pave the Way
21. Nanoreactor Engineering Can Unlock New Possibilities for CO 2 Tandem Catalytic Conversion to CC Coupled Products
22. Engineering exsolved catalysts for CO2 conversion
23. Catalytic processes for fuels production from CO2-rich streams: Opportunities for industrial flue gases upgrading
24. Unravelling the CO2 capture and conversion mechanism of a NiRu-Na2O switchable dual-function material in various CO2 utilisation reactions
25. Engineering Exsolved Catalysts for CO2 Conversion
26. The Need for Flexible Chemical Synthesis and How Dual-Function Materials Can Pave the Way
27. Switchable catalysis for methanol and synthetic natural gas synthesis from CO2: A techno-economic investigation
28. CO2 utilization with a novel dual function material (DFM) for capture and catalytic conversion to synthetic natural gas: An update
29. Engineering exsolved catalysts for CO2 conversion
30. Charting a path to catalytic upcycling of plastic micro/nano fiber pollution from textiles to produce carbon nanomaterials and turquoise hydrogen
31. Kinetics of CO2 methanation over Ru/γ-Al2O3 and implications for renewable energy storage applications
32. Dual function materials for CO2 capture and conversion using renewable H2
33. Unravelling the CO2 capture and conversion mechanism of a NiRu–Na2O switchable dual-function material in various CO2 utilisation reactions.
34. CO2 Conversion via Reverse Water Gas Shift Reaction Using Fully Selective Mo–P Multicomponent Catalysts
35. Ni-Phosphide catalysts as versatile systems for gas-phase CO2 conversion: Impact of the support and evidences of structure-sensitivity
36. Ni-Phosphide catalysts as versatile systems for gas-phase CO2 conversion: Impact of the support and evidences of structure-sensitivity
37. Versatile Ni-Ru catalysts for gas phase CO2 conversion: Bringing closer dry reforming, reverse water gas shift and methanation to enable end-products flexibility
38. Nanoreactor Engineering Can Unlock New Possibilities for CO2 Tandem Catalytic Conversion to CC Coupled Products.
39. Design of mesoporous ZnCoSiOx hollow nanoreactors with specific spatial distribution of metal species for selective CO2 hydrogenation.
40. Feasibility of switchable dual function materials as a flexible technology for CO2 capture and utilisation and evidence of passive direct air capture
41. Design of mesoporous ZnCoSiOx hollow nanoreactors with specific spatial distribution of metal species for selective CO2 hydrogenation
42. Closing the Carbon Cycle with Dual Function Materials
43. Spatial Location and Microenvironment Engineering of Pt-CeO2 Nanoreactors for Selective Hydrogenation of Cinnamaldehyde to Cinnamyl Alcohol
44. Identifying Commercial Opportunities for the Reverse Water Gas Shift Reaction
45. Ni-Phosphide catalysts as versatile systems for gas-phase CO2 conversion: Impact of the support and evidences of structure-sensitivity
46. Microenvironment and Nanoreactor Engineering of Single-Site Metal Catalysts for Electrochemical CO2 Reduction
47. Feasibility of switchable dual function materials as a flexible technology for CO2 capture and utilisation and evidence of passive direct air capture.
48. Thermodynamic Analysis of Dry Reforming of Methane for Valorization of Landfill Gas and Natural Gas
49. CO2 Conversion via Reverse Water Gas Shift Reaction Using Fully Selective Mo–P Multicomponent Catalysts.
50. Understanding Selectivity in CO2 Hydrogenation to Methanol for MoP Nanoparticle Catalysts Using In Situ Techniques
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