SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4384119703> ?p ?o ?g. }

Showing items 1 to 100 of ±134 with 100 items per page.

W4384119703 endingPage "11644" @default.
W4384119703 startingPage "11633" @default.
W4384119703 abstract "Small-pore Lewis acid zeolites have been showing increasing potential in shape-selective reactions regarding small-molecule conversion. In this study, Sn-CHA with tunable framework Sn contents was facilely prepared via a fluoride-free, seed-assisted interzeolite conversion (IZC) pathway. Commercially available dealuminated USY functioned as the parent sample, and seeding played a vital role in accelerating the transformation process, promoting the target zeolite yield, and guiding the attached-growth pathway. Notably, a proto-zeolite phase with a semi-constructed pore structure was captured during the IZC process, which represents a crucial intermediate stage for developing the complete CHA structure and ensuring a well-defined Sn status. The detailed synthesis mechanism was explored in multiscale by a series of techniques. The obtained Sn-CHA and proto-Sn-CHA exhibited excellent catalytic performance in converting 1,3-dihydroxyacetone to methyl lactate. Proto-Sn-CHA was proven to be a highly effective glucose isomerization catalyst owing to its larger pore size and Lewis acidic nature." @default.
W4384119703 created "2023-07-14" @default.
W4384119703 creator A5014463358 @default.
W4384119703 creator A5024762380 @default.
W4384119703 creator A5031105985 @default.
W4384119703 creator A5045919043 @default.
W4384119703 creator A5048654164 @default.
W4384119703 creator A5061091060 @default.
W4384119703 creator A5077700652 @default.
W4384119703 creator A5088178492 @default.
W4384119703 date "2023-07-13" @default.
W4384119703 modified "2023-10-18" @default.
W4384119703 title "Seed-Assisted Interzeolite Conversion Strategy for Fabricating Lewis Acid Sn-CHA Zeolites" @default.
W4384119703 cites W1968068966 @default.
W4384119703 cites W1979371364 @default.
W4384119703 cites W1981126709 @default.
W4384119703 cites W1996862692 @default.
W4384119703 cites W2021747105 @default.
W4384119703 cites W2028151988 @default.
W4384119703 cites W2054839504 @default.
W4384119703 cites W2056966307 @default.
W4384119703 cites W2057527685 @default.
W4384119703 cites W2069677750 @default.
W4384119703 cites W2085741076 @default.
W4384119703 cites W2107226996 @default.
W4384119703 cites W2118392345 @default.
W4384119703 cites W2119619557 @default.
W4384119703 cites W2143905520 @default.
W4384119703 cites W2147795829 @default.
W4384119703 cites W2165327947 @default.
W4384119703 cites W2165649558 @default.
W4384119703 cites W2273618290 @default.
W4384119703 cites W2301256969 @default.
W4384119703 cites W2307749734 @default.
W4384119703 cites W2321361362 @default.
W4384119703 cites W2322769393 @default.
W4384119703 cites W2332908243 @default.
W4384119703 cites W2614707438 @default.
W4384119703 cites W2617522716 @default.
W4384119703 cites W2619026941 @default.
W4384119703 cites W2626784109 @default.
W4384119703 cites W2745518864 @default.
W4384119703 cites W2754411384 @default.
W4384119703 cites W2802665194 @default.
W4384119703 cites W2884973041 @default.
W4384119703 cites W2894543039 @default.
W4384119703 cites W2915959393 @default.
W4384119703 cites W2945227364 @default.
W4384119703 cites W2965196134 @default.
W4384119703 cites W2984503545 @default.
W4384119703 cites W2989875385 @default.
W4384119703 cites W3011382391 @default.
W4384119703 cites W3131681081 @default.
W4384119703 cites W3159354263 @default.
W4384119703 cites W3212044337 @default.
W4384119703 cites W4200224285 @default.
W4384119703 cites W4221012361 @default.
W4384119703 cites W4283018773 @default.
W4384119703 cites W4283024746 @default.
W4384119703 cites W4284898831 @default.
W4384119703 cites W4294199406 @default.
W4384119703 cites W4297458598 @default.
W4384119703 cites W4309624970 @default.
W4384119703 cites W4311763281 @default.
W4384119703 doi "https://doi.org/10.1021/acs.inorgchem.3c01376" @default.
W4384119703 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37439595" @default.
W4384119703 hasPublicationYear "2023" @default.
W4384119703 type Work @default.
W4384119703 citedByCount "0" @default.
W4384119703 crossrefType "journal-article" @default.
W4384119703 hasAuthorship W4384119703A5014463358 @default.
W4384119703 hasAuthorship W4384119703A5024762380 @default.
W4384119703 hasAuthorship W4384119703A5031105985 @default.
W4384119703 hasAuthorship W4384119703A5045919043 @default.
W4384119703 hasAuthorship W4384119703A5048654164 @default.
W4384119703 hasAuthorship W4384119703A5061091060 @default.
W4384119703 hasAuthorship W4384119703A5077700652 @default.
W4384119703 hasAuthorship W4384119703A5088178492 @default.
W4384119703 hasConcept C126661725 @default.
W4384119703 hasConcept C127413603 @default.
W4384119703 hasConcept C134121241 @default.
W4384119703 hasConcept C161790260 @default.
W4384119703 hasConcept C163638829 @default.
W4384119703 hasConcept C171250308 @default.
W4384119703 hasConcept C178790620 @default.
W4384119703 hasConcept C185592680 @default.
W4384119703 hasConcept C191897082 @default.
W4384119703 hasConcept C192562407 @default.
W4384119703 hasConcept C21951064 @default.
W4384119703 hasConcept C2778077586 @default.
W4384119703 hasConcept C2779735320 @default.
W4384119703 hasConcept C2780881558 @default.
W4384119703 hasConcept C32909587 @default.
W4384119703 hasConcept C42360764 @default.
W4384119703 hasConceptScore W4384119703C126661725 @default.
W4384119703 hasConceptScore W4384119703C127413603 @default.
W4384119703 hasConceptScore W4384119703C134121241 @default.
W4384119703 hasConceptScore W4384119703C161790260 @default.