Breakthrough in Xenon Capture and Purification Using Adsorbent‐Supported Silver Nanoparticles

Deliere, Ludovic; Coasne, Benoît; Topin, Sylvain; Gréau, Claire; Moulin, Christophe; Farrusseng, David

doi:10.1002/chem.201601351

Cited by 34 publications

(38 citation statements)

References 33 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…Metal NPs encapsulated in hollow microporous silica crystals represent a very interesting class of nanomembrane reactors in which the reaction is essentially governed by the permeability of the shell (Farrusseng & Tuel, ). These nanocatalysts are the subject of continuous development for applications such as nuclear waste treatments or selective heterogeneous catalysis (Deliere et al ., ; http://www.molecularproducts.com/us/ionex.htm). Indeed, particles are only accessible to molecules that can diffuse through the zeolite walls, that is with a kinetic diameter smaller than the pore size.…”

Section: Experimental Backgroundmentioning

confidence: 99%

Fast ‘Operando’ electron nanotomography

Roiban

Aouine

et al. 2017

Journal of Microscopy

View full text Add to dashboard Cite

Electron tomography in transmission electron microscopy provides valuable three-dimensional structural, morphological and chemical information of condensed matter at nanoscale. Current image acquisitions require at least tens of minutes, which prohibits the analysis of nano-objects evolving rapidly such as under dynamic environmental conditions. Reducing the acquisition duration to tens of seconds or less permits to follow in 3D the same object during its evolution under varying temperatures and pressures. We report Operando Electron nanotomography using image series acquired in less than 230 seconds instead of typically 15 min in the best cases so far. The in situ calcination of silica zeolites encaging silver nanoparticles, a catalytic nanosystem of potential interest for, e.g., nuclear waste treatments or selective heterogeneous catalysis, was successfully studied. Kinetic environmental Operando 3D electron microscopy becomes possible, as well as real time observation of beam sensitive samples (polymers, biological objects) without prior preparation, which reduces their contrast and reactivity.

show abstract

Section: Experimental Backgroundmentioning

confidence: 99%

Fast ‘Operando’ electron nanotomography

Roiban

Aouine

et al. 2017

Journal of Microscopy

View full text Add to dashboard Cite

show abstract

“…4,58 This is further supported by the slight increase of separation factor with temperature, which is the result of a stronger reduction in Xe adsorption because of its higher heat of adsorption than that of CO 2 . 4 The same situation applies for Kr/Xe separation in other nanoporous crystalline membranes, such as ZIF-8 and SAPO-34, as elucidated by molecular simulation. 60…”

Section: Resultsmentioning

confidence: 81%

One-Pot Synthesis of High-Flux b-Oriented MFI Zeolite Membranes for Xe Recovery

Wang

Karakiliç

Liu

et al. 2018

ACS Appl. Mater. Interfaces

View full text Add to dashboard Cite

We demonstrate that b-oriented MFI (Mobil Five) zeolite membranes can be manufactured by in situ crystallization using an intermediate amorphous SiO layer. The improved in-plane growth by using a zeolite growth modifier leads to fusion of independent crystals and eliminates boundary gaps, giving good selectivity in the separation of CO/Xe mixtures. The fast diffusion of CO dominates the overall membrane selectivity toward the CO/Xe mixture. Because of the straight and short [010] channels, the obtained CO permeation fluxes are several orders of magnitude higher than those of carbon molecular sieving membranes and polymeric membranes, opening opportunities for Xe recovery from waste anesthetic gas.

show abstract

“…They demonstrated that the xenon bed could be regenerated after a heat treatment of 200-250°C. In studies in the Farrusseng laboratory (Daniel et al, 2013;Deliere et al, 2016), Ag-exchanged ZSM-5 zeolites showed promise for noble gas capture and separation and performed better than several MOFs evaluated head-to-head along with the zeolites. MOFs are composed of organic moieties interlinked by metal ions or clusters forming a three-dimensional (3D) crystal structure with long-range order.…”

Section: Solid Sorbents For Noble Gas Capturementioning

confidence: 99%