SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2103234975> ?p ?o ?g. }

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

W2103234975 endingPage "8321" @default.
W2103234975 startingPage "8312" @default.
W2103234975 abstract "A rapid development of nanotechnology opens up a way for the fabrication of solid surfaces containing unique adsorption properties. In this article, we present the concept of a chiral nanostructured surface as a potential environment for the separation of chiral molecules. In particular, we focus on the effect of size and shape of the adsorbing molecules on the effectiveness of their separation on a surface with a special distribution of active sites. The Monte Carlo simulation method was used to study enantiospecific adsorption of model chiral molecules that differ in molecular footprint and adsorption energy. It was demonstrated that manipulating the footprint offers many possibilities for tuning the preference of the surface for adsorption of a selected enantiomer. One interesting finding was that subtle differences in the interaction pattern of the molecule with the chiral surface can lead to a reversal of enantioselectivity. The results of this work highlight the role of extended surface chirality in enantiospecific adsorption of enantiomers. They also suggest that the proposed mechanism of chiral selection can be a realistic alternative to those inherent in conventional enantioselective adsorbents." @default.
W2103234975 created "2016-06-24" @default.
W2103234975 creator A5010359595 @default.
W2103234975 date "2008-09-19" @default.
W2103234975 modified "2023-10-04" @default.
W2103234975 title "Extended Surface Chirality for Enantiospecific Adsorption" @default.
W2103234975 cites W1550251710 @default.
W2103234975 cites W1665846424 @default.
W2103234975 cites W1967850180 @default.
W2103234975 cites W1968534231 @default.
W2103234975 cites W1974569290 @default.
W2103234975 cites W1975342809 @default.
W2103234975 cites W1976085475 @default.
W2103234975 cites W1981180588 @default.
W2103234975 cites W1982564372 @default.
W2103234975 cites W1984122427 @default.
W2103234975 cites W1985118658 @default.
W2103234975 cites W1986376726 @default.
W2103234975 cites W1987061253 @default.
W2103234975 cites W1992356753 @default.
W2103234975 cites W1994616459 @default.
W2103234975 cites W1995396419 @default.
W2103234975 cites W1996554710 @default.
W2103234975 cites W1998920484 @default.
W2103234975 cites W2001186355 @default.
W2103234975 cites W2003694368 @default.
W2103234975 cites W2007071549 @default.
W2103234975 cites W2009461626 @default.
W2103234975 cites W2015292813 @default.
W2103234975 cites W2015940471 @default.
W2103234975 cites W2020419499 @default.
W2103234975 cites W2021613977 @default.
W2103234975 cites W2022471392 @default.
W2103234975 cites W2022731877 @default.
W2103234975 cites W2027852583 @default.
W2103234975 cites W2028083106 @default.
W2103234975 cites W2030402045 @default.
W2103234975 cites W2031395081 @default.
W2103234975 cites W2033336335 @default.
W2103234975 cites W2037631130 @default.
W2103234975 cites W2039911280 @default.
W2103234975 cites W2044174341 @default.
W2103234975 cites W2046109662 @default.
W2103234975 cites W2050235870 @default.
W2103234975 cites W2052805113 @default.
W2103234975 cites W2058586212 @default.
W2103234975 cites W2058757150 @default.
W2103234975 cites W2060055225 @default.
W2103234975 cites W2067231397 @default.
W2103234975 cites W2074471505 @default.
W2103234975 cites W2079264549 @default.
W2103234975 cites W2080399129 @default.
W2103234975 cites W2081136153 @default.
W2103234975 cites W2089875369 @default.
W2103234975 cites W2094535924 @default.
W2103234975 cites W2118240294 @default.
W2103234975 cites W2138965612 @default.
W2103234975 cites W2174780818 @default.
W2103234975 cites W2320871107 @default.
W2103234975 cites W2337870266 @default.
W2103234975 cites W2489933306 @default.
W2103234975 cites W2951033497 @default.
W2103234975 cites W2951054071 @default.
W2103234975 doi "https://doi.org/10.1002/chem.200800444" @default.
W2103234975 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/18645995" @default.
W2103234975 hasPublicationYear "2008" @default.
W2103234975 type Work @default.
W2103234975 sameAs 2103234975 @default.
W2103234975 citedByCount "15" @default.
W2103234975 countsByYear W21032349752012 @default.
W2103234975 countsByYear W21032349752014 @default.
W2103234975 countsByYear W21032349752016 @default.
W2103234975 countsByYear W21032349752017 @default.
W2103234975 crossrefType "journal-article" @default.
W2103234975 hasAuthorship W2103234975A5010359595 @default.
W2103234975 hasConcept C121332964 @default.
W2103234975 hasConcept C124668440 @default.
W2103234975 hasConcept C146686406 @default.
W2103234975 hasConcept C146888428 @default.
W2103234975 hasConcept C147597530 @default.
W2103234975 hasConcept C150394285 @default.
W2103234975 hasConcept C159467904 @default.
W2103234975 hasConcept C161790260 @default.
W2103234975 hasConcept C163845019 @default.
W2103234975 hasConcept C171250308 @default.
W2103234975 hasConcept C178790620 @default.
W2103234975 hasConcept C185592680 @default.
W2103234975 hasConcept C192562407 @default.
W2103234975 hasConcept C20621625 @default.
W2103234975 hasConcept C2524010 @default.
W2103234975 hasConcept C2776799497 @default.
W2103234975 hasConcept C32909587 @default.
W2103234975 hasConcept C33923547 @default.
W2103234975 hasConcept C486523 @default.
W2103234975 hasConcept C52233224 @default.
W2103234975 hasConcept C62520636 @default.
W2103234975 hasConceptScore W2103234975C121332964 @default.
W2103234975 hasConceptScore W2103234975C124668440 @default.