106 results on '"A. Serre"'
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2. Polymer–metal–organic framework self-assembly (PMOFSA) as a robust one-step method to generate well-dispersed hybrid nanoparticles in water
3. Computational structure determination of novel metal–organic frameworks
4. A MOF-assisted phosphine free bifunctional iron complex for the hydrogenation of carbon dioxide, sodium bicarbonate and carbonate to formate
5. A spin crossover porous hybrid architecture for potential sensing applications
6. Direct accessibility of mixed-metal (<scp>iii</scp>/<scp>ii</scp>) acid sites through the rational synthesis of porous metal carboxylates
7. A biocompatible porous Mg-gallate metal–organic framework as an antioxidant carrier
8. Tuning the properties of the UiO-66 metal organic framework by Ce substitution
9. Computational structure determination of novel metal–organic frameworks
10. Metalorganic frameworks as potential shock absorbers: the case of the highly flexible MIL-53(Al)
11. A biocompatible porous Mg-gallate metal–organic framework as an antioxidant carrier
12. Immobilization of polyoxometalates in the Zr-based metal organic framework UiO-67
13. Tuning the properties of the UiO-66 metal organic framework by Ce substitution
14. Direct accessibility of mixed-metal (iii/ii) acid sites through the rational synthesis of porous metal carboxylates
15. Extended and functionalized porous iron(iii) tri- or dicarboxylates with MIL-100/101 topologies
16. A rare example of a porous Ca-MOF for the controlled release of biologically active NO
17. A robust amino-functionalized titanium(iv) based MOF for improved separation of acid gases
18. Green scalable aerosol synthesis of porous metal–organic frameworks
19. Tuning the breathing behaviour of MIL-53 by cation mixing
20. CH4 storage and CO2 capture in highly porous zirconium oxide based metal–organic frameworks
21. Functionalizing porous zirconium terephthalate UiO-66(Zr) for natural gas upgrading: a computational exploration
22. Direct covalent post-synthetic chemical modification of Cr-MIL-101 using nitrating acid
23. CH4 storage and CO2 capture in highly porous zirconium oxide based metal–organic frameworks
24. Tuning the breathing behaviour of MIL-53 by cation mixing
25. Synthesis, structure determination and properties of MIL-53as and MIL-53ht: the first Criii hybrid inorganic–organic microporous solids: Criii(OH)·{O2C–C6H4–CO2}·{HO2C–C6H4–CO2H}xElectronic supplementary information (ESI) available: crystal data, atomic coordinates and metrical parameters for MIL-53as and MIL-53ht. See http://www.rsc.org/suppdata/cc/b2/b201381a
26. Biodegradable therapeutic MOFs for the delivery of bioactive molecules
27. Elaboration and properties of hierarchically structured optical thin films of MIL-101(Cr)
28. Estimation of the breathing energy of flexible MOFs by combining TGA and DSC techniques
29. The room-temperature crystallisation of a one-dimensional gallium fluorophosphate, Ga(HPO4)2F·H3N(CH2)3NH3·2H2O, a precursor to three-dimensional microporous gallium fluorophosphates
30. Estimation of the breathing energy of flexible MOFs by combining TGA and DSC techniques
31. Evidence of CO2 molecule acting as an electron acceptor on a nanoporous metal–organic-framework MIL-53 or Cr3+(OH)(O2C–C6H4–CO2)
32. On the breathing effect of a metal–organic framework upon CO2 adsorption: Monte Carlo compared to microcalorimetry experiments
33. An EXAFS study of the formation of a nanoporous metal–organic framework: evidence for the retention of secondary building units during synthesis
34. A microporous scandium terephthalate, Sc2(O2CC6H4CO2)3, with high thermal stability
35. Evidence of CO2 molecule acting as an electron acceptor on a nanoporous metal–organic-framework MIL-53 or Cr3+(OH)(O2C–C6H4–CO2)
36. On the breathing effect of a metal–organic framework upon CO2 adsorption: Monte Carlo compared to microcalorimetry experiments
37. Rational design of porous titanophosphates
38. A microporous scandium terephthalate, Sc2(O2CC6H4CO2)3, with high thermal stability
39. Synthesis, structure determination and properties of MIL-53as and MIL-53ht: the first Criii hybrid inorganic–organic microporous solids: Criii(OH)·{O2C–C6H4–CO2}·{HO2C–C6H4–CO2H}xElectronic supplementary information (ESI) available: crystal data, atomic coordinates and metrical parameters for MIL-53as and MIL-53ht. See http://www.rsc.org/suppdata/cc/b2/b201381a/
40. Rational design of porous titanophosphates
41. The room-temperature crystallisation of a one-dimensional gallium fluorophosphate, Ga(HPO4)2F·H3N(CH2)3NH3·2H2O, a precursor to three-dimensional microporous gallium fluorophosphates
42. Rational design of porous titanophosphates.
43. Metal--organic frameworks as potential shock absorbers: the case of the highly flexible MIL-53(Al).
44. An amino-modified Zr-terephthalate metal–organic framework as an acid–base catalyst for cross-aldol condensationElectronic supplementary information (ESI) available: XRD, TGA, SEM images, filtration test. See DOI: 10.1039/c0cc03038d.
45. A zirconium methacrylate oxocluster as precursor for the low-temperature synthesis of porous zirconium(IV) dicarboxylates.
46. Elaboration and properties of hierarchically structured optical thin films of MIL-101(Cr)Electronic supplementary information (ESI) available: Synthesis conditions, characterizations of NPs (DLS, PXRD, Zeta potential, MET, TGA, N2adsorption), GI-WAXS, thermal stability, thickness and refractive index of thin films. See DOI: 10.1039/b915011k
47. Synthesis and catalytic properties of MIL-100(Fe), an iron(iii) carboxylate with large pores.
48. A new isoreticular class of metal-organic-frameworks with the MIL-88 topology.
49. A microporous scandium terephthalate, Sc2(O2CC6H4CO2)3, with high thermal stability .
50. A new isoreticular class of metal-organic-frameworks with the MIL-88 topologyElectronic supplementary information (ESI) available: Synthesis conditions, the structure refinement parameters, X-ray thermodiffractometry, TGA results, quantitative analysis and density measurements for MIL-88B, -88C and -88D. See DOI: 10.1039/b512169h
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