SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2080942650> ?p ?o ?g. }

Showing items 1 to 100 of ±139 with 100 items per page.

W2080942650 endingPage "2676" @default.
W2080942650 startingPage "2669" @default.
W2080942650 abstract "Structured zeolite 13X monoliths with a laminated structure and hierarchical macro-/microporosity were prepared by freeze-casting aqueous suspensions of zeolite 13X powder, bentonite, and polyethylene glycol. Colloidally stable suspensions with a low viscosity at both room temperature and near freezing could be prepared at alkaline conditions where both the zeolite 13X powder and bentonite carry a negative surface charge. Slow directional freezing of the suspensions led to the formation of well-defined and thin lamellar pores and pore walls while fast freezing resulted in more cylindrical pores. The wall thickness, which varied between 8 and 35 μm, increased with increasing solids loading of the suspension. Thermal treatment at 1053 K of the freeze-cast bodies containing between 9 and 17 wt % bentonite resulted in mechanically stable zeolite 13X monoliths. The monoliths displayed a carbon dioxide uptake capacity of 4–5 mmol/g and an uptake kinetics characterized by a very fast initial uptake where more than 50% of the maximum uptake was reached within 15 s. Freeze-cast laminated zeolite monoliths could be used to improve the volumetric efficiency and reduce the cycle time, of importance in, for example, biogas upgrading and CO2 separation from flue gas." @default.
W2080942650 created "2016-06-24" @default.
W2080942650 creator A5009858461 @default.
W2080942650 creator A5038904428 @default.
W2080942650 creator A5048673385 @default.
W2080942650 creator A5088965262 @default.
W2080942650 date "2013-03-27" @default.
W2080942650 modified "2023-09-24" @default.
W2080942650 title "Laminated Adsorbents with Very Rapid CO<sub>2</sub> Uptake by Freeze-Casting of Zeolites" @default.
W2080942650 cites W1786106738 @default.
W2080942650 cites W17872748 @default.
W2080942650 cites W1868756701 @default.
W2080942650 cites W1963971637 @default.
W2080942650 cites W1965214878 @default.
W2080942650 cites W1974541812 @default.
W2080942650 cites W1976728035 @default.
W2080942650 cites W1978281955 @default.
W2080942650 cites W1978535220 @default.
W2080942650 cites W1979199731 @default.
W2080942650 cites W1979450155 @default.
W2080942650 cites W1980519774 @default.
W2080942650 cites W1982887681 @default.
W2080942650 cites W1985974690 @default.
W2080942650 cites W1987190618 @default.
W2080942650 cites W1996968832 @default.
W2080942650 cites W1997190195 @default.
W2080942650 cites W2002087481 @default.
W2080942650 cites W2003488635 @default.
W2080942650 cites W2006872215 @default.
W2080942650 cites W2008898229 @default.
W2080942650 cites W2013428707 @default.
W2080942650 cites W2019832034 @default.
W2080942650 cites W2032667425 @default.
W2080942650 cites W2034325001 @default.
W2080942650 cites W2036287051 @default.
W2080942650 cites W2039884498 @default.
W2080942650 cites W2040956306 @default.
W2080942650 cites W2043799381 @default.
W2080942650 cites W2044562030 @default.
W2080942650 cites W2047045180 @default.
W2080942650 cites W2047841611 @default.
W2080942650 cites W2049872969 @default.
W2080942650 cites W2060491647 @default.
W2080942650 cites W2074881477 @default.
W2080942650 cites W2077445749 @default.
W2080942650 cites W2083674134 @default.
W2080942650 cites W2097995492 @default.
W2080942650 cites W2099486431 @default.
W2080942650 cites W2125053394 @default.
W2080942650 cites W2132581095 @default.
W2080942650 cites W2136876183 @default.
W2080942650 cites W2142904376 @default.
W2080942650 cites W2153654698 @default.
W2080942650 cites W2160831548 @default.
W2080942650 cites W3020947398 @default.
W2080942650 cites W3103727127 @default.
W2080942650 doi "https://doi.org/10.1021/am400122r" @default.
W2080942650 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/23484540" @default.
W2080942650 hasPublicationYear "2013" @default.
W2080942650 type Work @default.
W2080942650 sameAs 2080942650 @default.
W2080942650 citedByCount "59" @default.
W2080942650 countsByYear W20809426502014 @default.
W2080942650 countsByYear W20809426502015 @default.
W2080942650 countsByYear W20809426502016 @default.
W2080942650 countsByYear W20809426502017 @default.
W2080942650 countsByYear W20809426502018 @default.
W2080942650 countsByYear W20809426502019 @default.
W2080942650 countsByYear W20809426502020 @default.
W2080942650 countsByYear W20809426502021 @default.
W2080942650 countsByYear W20809426502022 @default.
W2080942650 countsByYear W20809426502023 @default.
W2080942650 crossrefType "journal-article" @default.
W2080942650 hasAuthorship W2080942650A5009858461 @default.
W2080942650 hasAuthorship W2080942650A5038904428 @default.
W2080942650 hasAuthorship W2080942650A5048673385 @default.
W2080942650 hasAuthorship W2080942650A5088965262 @default.
W2080942650 hasConcept C105341887 @default.
W2080942650 hasConcept C127413603 @default.
W2080942650 hasConcept C150394285 @default.
W2080942650 hasConcept C159985019 @default.
W2080942650 hasConcept C161790260 @default.
W2080942650 hasConcept C16635281 @default.
W2080942650 hasConcept C178790620 @default.
W2080942650 hasConcept C184651966 @default.
W2080942650 hasConcept C185592680 @default.
W2080942650 hasConcept C192562407 @default.
W2080942650 hasConcept C202444582 @default.
W2080942650 hasConcept C2776964284 @default.
W2080942650 hasConcept C2777979977 @default.
W2080942650 hasConcept C2778077586 @default.
W2080942650 hasConcept C33923547 @default.
W2080942650 hasConcept C42360764 @default.
W2080942650 hasConcept C5961521 @default.
W2080942650 hasConcept C6648577 @default.
W2080942650 hasConcept C77851909 @default.
W2080942650 hasConcept C86381522 @default.
W2080942650 hasConceptScore W2080942650C105341887 @default.