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Hydrogen metal-organic frameworks

Zhao, X., Bo. Xiao, A.J. Fletcher, K.M. Thomas, D. Bradshaw, M.J. Rosseinsky, Hysteretic adsorption and desorption of hydrogen by nanoporous metal-organic frameworks. Science 306,1012,2004. [Pg.434]

Poirier, E., R. Chahine, P. Benard, G. Dorval-Douville, L. Lafi, P.A. Chandonia, Hydrogen adsorption measurements and modeling on metal-organic frameworks and single-walled carbon nanotubes. Langmuir 22(21), 8784-8789, 2006. [Pg.435]

Mulder, F.M., T.J. Dingemans, M. Wagemaker, G.J. Kearley, Modelling of hydrogen adsorption in the metal organic framework MOF5. Chem. Phys. 317,113-118, 2005. [Pg.436]

Physisorption (i.e., adsorption of hydrogen) of molecular hydrogen by weak van der Waals forces to the inner surface of a highly porous material. Adsorption has been studied on various nanomaterials, e.g., nanocarbons, metal organic frameworks and polymers. [Pg.314]

Evaluation of Metal-Organic Frameworks for Hydrogen Storage... [Pg.54]

Four different methods to store hydrogen are currently available compressed gas, liquid hydrogen, metal hydrides and sorption on different porous materials (carbon materials, zeolites, metal organic frameworks, etc).2-4... [Pg.77]

B. Panella, M. Hirscher, H. Putter, and U. Muller, Hydrogen adsorption in metal-organic frameworks Cu-MOFs and Zn-MOFs compared, Adv. Fund. Mater., 16,520-524 (2006). [Pg.90]

Thomas KM. Adsorption and desorption of hydrogen on metal-organic framework materials for storage applications comparison with other nanoporous materials, Dalton Trans 2009, 2009,1487-1505. [Pg.291]

Petit C, Mendoza B, Bandosz TJ. Hydrogen sulfide adsorption on metal-organic frameworks and metal-organic frameworks / graphite oxide composites, ChemPhysChem 2010,11, 3678-3684. [Pg.291]

Figure 5.19 Hydrogen adsorption isotherm at room temperature (left) and at liquid nitrogen temperature (right) on metal organic frameworks (MOFs). Figure 5.19 Hydrogen adsorption isotherm at room temperature (left) and at liquid nitrogen temperature (right) on metal organic frameworks (MOFs).
Furukawa, H., Miller, M. A., Yaghi, 0. M., Independent verification of the saturation hydrogen uptake in MOF-177 and establishment of a benchmark for hydrogen adsorption in metal-organic frameworks. J. Mater. Chem. 2007, 17, 3197-3204. [Pg.623]

Holscher, M., Increased hydrogen storage capacity in metal-organic frameworks by designed use of spillover. Green Chemistry 2006, 8, 675-676. [Pg.967]

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See also in sourсe #XX -- [ Pg.186 ]



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