SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2953530908> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W2953530908 abstract "Abstract Optimising the supported modes of atom or ion dispersal onto substrates, to synchronously integrate high reactivity and robust stability in catalytic conversion, is an important yet challenging area of research. Here, theoretical calculations first show that three-coordinated copper (Cu) sites have higher activity than four-, two- and one-coordinated sites. A site-selective etching method is then introduced to prepare a stacked-nanosheet metal–organic framework (MOF, CASFZU-1)-based catalyst with precisely controlled coordination number sites on its surface. The turnover frequency value of CASFZU-1 with three-coordinated Cu sites, for cycloaddition reaction of CO 2 with epoxides, greatly exceed those of other catalysts reported to date. Five successive catalytic cycles reveal the superior stability of CASFZU-1 in the stacked-nanosheet structure. This study could form a basis for the rational design and construction of highly efficient and robust catalysts in the field of single-atom or ion catalysis." @default.
W2953530908 created "2019-07-12" @default.
W2953530908 creator A5003547177 @default.
W2953530908 creator A5006604942 @default.
W2953530908 creator A5027353348 @default.
W2953530908 creator A5045365326 @default.
W2953530908 creator A5046874449 @default.
W2953530908 creator A5046999514 @default.
W2953530908 creator A5047244598 @default.
W2953530908 creator A5048229670 @default.
W2953530908 creator A5060776359 @default.
W2953530908 creator A5066222280 @default.
W2953530908 creator A5076869382 @default.
W2953530908 creator A5079042507 @default.
W2953530908 creator A5085764973 @default.
W2953530908 creator A5087259589 @default.
W2953530908 creator A5091514174 @default.
W2953530908 date "2019-06-25" @default.
W2953530908 modified "2023-10-14" @default.
W2953530908 title "Coordination mode engineering in stacked-nanosheet metal–organic frameworks to enhance catalytic reactivity and structural robustness" @default.
W2953530908 cites W1168565912 @default.
W2953530908 cites W1980217390 @default.
W2953530908 cites W1995004090 @default.
W2953530908 cites W2002347650 @default.
W2953530908 cites W2002928929 @default.
W2953530908 cites W2004550299 @default.
W2953530908 cites W2013853734 @default.
W2953530908 cites W2015011771 @default.
W2953530908 cites W2027743899 @default.
W2953530908 cites W2036503595 @default.
W2953530908 cites W2038213136 @default.
W2953530908 cites W2050863372 @default.
W2953530908 cites W2057110515 @default.
W2953530908 cites W2070227796 @default.
W2953530908 cites W2077755071 @default.
W2953530908 cites W2078551108 @default.
W2953530908 cites W2084375504 @default.
W2953530908 cites W2115052712 @default.
W2953530908 cites W2126676230 @default.
W2953530908 cites W2132525235 @default.
W2953530908 cites W2137818170 @default.
W2953530908 cites W2141287164 @default.
W2953530908 cites W2143981217 @default.
W2953530908 cites W2157254946 @default.
W2953530908 cites W2160174308 @default.
W2953530908 cites W2172121733 @default.
W2953530908 cites W2314284418 @default.
W2953530908 cites W2330146532 @default.
W2953530908 cites W2508775406 @default.
W2953530908 cites W2558998316 @default.
W2953530908 cites W2561762587 @default.
W2953530908 cites W2576586904 @default.
W2953530908 cites W2588927774 @default.
W2953530908 cites W2744085873 @default.
W2953530908 cites W2776687276 @default.
W2953530908 cites W2782843009 @default.
W2953530908 cites W2803427589 @default.
W2953530908 cites W2884659972 @default.
W2953530908 cites W8005425 @default.
W2953530908 doi "https://doi.org/10.1038/s41467-019-10547-9" @default.
W2953530908 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6592929" @default.
W2953530908 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31239440" @default.
W2953530908 hasPublicationYear "2019" @default.
W2953530908 type Work @default.
W2953530908 sameAs 2953530908 @default.
W2953530908 citedByCount "76" @default.
W2953530908 countsByYear W29535309082019 @default.
W2953530908 countsByYear W29535309082020 @default.
W2953530908 countsByYear W29535309082021 @default.
W2953530908 countsByYear W29535309082022 @default.
W2953530908 countsByYear W29535309082023 @default.
W2953530908 crossrefType "journal-article" @default.
W2953530908 hasAuthorship W2953530908A5003547177 @default.
W2953530908 hasAuthorship W2953530908A5006604942 @default.
W2953530908 hasAuthorship W2953530908A5027353348 @default.
W2953530908 hasAuthorship W2953530908A5045365326 @default.
W2953530908 hasAuthorship W2953530908A5046874449 @default.
W2953530908 hasAuthorship W2953530908A5046999514 @default.
W2953530908 hasAuthorship W2953530908A5047244598 @default.
W2953530908 hasAuthorship W2953530908A5048229670 @default.
W2953530908 hasAuthorship W2953530908A5060776359 @default.
W2953530908 hasAuthorship W2953530908A5066222280 @default.
W2953530908 hasAuthorship W2953530908A5076869382 @default.
W2953530908 hasAuthorship W2953530908A5079042507 @default.
W2953530908 hasAuthorship W2953530908A5085764973 @default.
W2953530908 hasAuthorship W2953530908A5087259589 @default.
W2953530908 hasAuthorship W2953530908A5091514174 @default.
W2953530908 hasBestOaLocation W29535309081 @default.
W2953530908 hasConcept C104317684 @default.
W2953530908 hasConcept C142724271 @default.
W2953530908 hasConcept C150394285 @default.
W2953530908 hasConcept C161790260 @default.
W2953530908 hasConcept C171250308 @default.
W2953530908 hasConcept C178790620 @default.
W2953530908 hasConcept C179366358 @default.
W2953530908 hasConcept C185592680 @default.
W2953530908 hasConcept C191897082 @default.
W2953530908 hasConcept C192562407 @default.
W2953530908 hasConcept C204787440 @default.
W2953530908 hasConcept C21951064 @default.