38 results on '"Dong, Qiubing"'
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2. Reversed C2H6/C2H4 separation in interpenetrated diamondoid coordination networks with enhanced host–guest interaction
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3. Supramolecular Interactions Induce Dynamics in Metal–Organic Layers to Selectively Separate Acetylene from Carbon Dioxide
4. A chemically stable nanoporous coordination polymer with fixed and free Cu2+ ions for boosted C2H2/CO2 separation
5. Highly Efficient CO2 Capture from Wet–Hot Flue Gas by a Robust Trap-and-Flow Crystal.
6. Shape‐ and Size‐Dependent Kinetic Ethylene Sieving from a Ternary Mixture by a Trap‐and‐Flow Channel Crystal (Adv. Funct. Mater. 38/2022)
7. Highly Efficient CO2Capture from Wet–Hot Flue Gas by a Robust Trap-and-Flow Crystal
8. Confining Water Nanotubes in a Cu10O13-Based Metal–Organic Framework for Propylene/Propane Separation with Record-High Selectivity.
9. Rotation configuration control of the sp2 bond in the diimidazole–dicarboxylate linker for the isomerism of porous coordination polymers
10. Confining Water Nanotubes in a Cu10O13-Based Metal–Organic Framework for Propylene/Propane Separation with Record-High Selectivity
11. Rotation configuration control of the sp2 bond in the diimidazole–dicarboxylate linker for the isomerism of porous coordination polymers.
12. Corrigendum: Tuning Gate‐Opening of a Flexible Metal–Organic Framework for Ternary Gas Sieving Separation
13. Berichtigung: Tuning Gate‐Opening of a Flexible Metal–Organic Framework for Ternary Gas Sieving Separation
14. Tuning Gate‐Opening of a Flexible Metal–Organic Framework for Ternary Gas Sieving Separation
15. Molecular Sieving of C2H4 from C2H2 by a Supramolecular Porous Material
16. A chemically stable nanoporous coordination polymer with fixed and free Cu2+ ions for boosted C2H2/CO2 separation
17. Finely Tuned Framework Isomers for Highly Efficient C2H2 and CO2 Separation
18. Accelerated C2H2/CO2 Separation by a Se-Functionalized Porous Coordination Polymer with Low Binding Energy
19. Pore engineering of metal–organic frameworks for ethylene purification
20. Optimized nanospace of coordination isomers with selenium sites for acetylene separation
21. Interplay of Tri- and Bidentate Linkers to Evolve Micropore Environment in a Family of Quasi-3D and 3D Porous Coordination Polymers for Highly Selective CO2 Capture
22. Finely Tuned Porous Coordination Polymers To Boost Methane Separation Efficiency
23. A chemically stable nanoporous coordination polymer with fixed and free Cu2+ ions for boosted C2H2/CO2 separation.
24. Finely Tuned Framework Isomers for Highly Efficient C2H2 and CO2 Separation.
25. Molecular Sieving of C2H4from C2H2by a Supramolecular Porous Material
26. Molecular Sieving of C2H4 from C2H2 by a Supramolecular Porous Material.
27. Finely Tuned Framework Isomers for Highly Efficient C2H2and CO2Separation
28. Accelerated C2H2/CO2 Separation by a Se-Functionalized Porous Coordination Polymer with Low Binding Energy.
29. Interplay of Tri- and Bidentate Linkers to Evolve Micropore Environment in a Family of Quasi-3D and 3D Porous Coordination Polymers for Highly Selective CO2 Capture.
30. A chemically stable nanoporous coordination polymer with fixed and free Cu2+ ions for boosted C2H2/CO2 separation.
31. Accelerated C2H2/CO2Separation by a Se-Functionalized Porous Coordination Polymer with Low Binding Energy
32. Multiple Structural and Phase Transformations of MOF and Selective Hydrocarbon Gas Separation in its Amorphous, Glass Phase States.
33. Evolution from [Zn 9 ] to a record-high [Zn 54 ] subblock and engineering a hierarchical supramolecular framework for enhanced iodine uptake.
34. Highly Efficient CO 2 Capture from Wet-Hot Flue Gas by a Robust Trap-and-Flow Crystal.
35. Confining Water Nanotubes in a Cu 10 O 13 -Based Metal-Organic Framework for Propylene/Propane Separation with Record-High Selectivity.
36. Finely Tuned Framework Isomers for Highly Efficient C 2 H 2 and CO 2 Separation.
37. Accelerated C 2 H 2 /CO 2 Separation by a Se-Functionalized Porous Coordination Polymer with Low Binding Energy.
38. Interplay of Tri- and Bidentate Linkers to Evolve Micropore Environment in a Family of Quasi-3D and 3D Porous Coordination Polymers for Highly Selective CO 2 Capture.
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