SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2560850619> ?p ?o ?g. }

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

W2560850619 endingPage "1116" @default.
W2560850619 startingPage "1110" @default.
W2560850619 abstract "Chiral drugs play an essential role in medical and biochemical systems, and thus enantioselective analysis of chiral molecules has become a central focus in chemical, biological, medical, and pharmaceutical research. The design of chiral drug-detecting systems is a long-term and challenging task. Here we report the use of a modification-free nanochannel method for enantioselective recognition of S-naproxen from R-naproxen using N-acetyl-l-cysteine-capped gold nanoparticles as a chiral selector. The chiral discrimination is based on a drug-induced nanoparticle diastereoselective aggregation mechanism that blocks ion transport through the nanochannel. We demonstrated that high S-Npx selectivity in both water and biological samples can be achieved. This simple method has potential applications as a general platform for the detection of chiral molecules." @default.
W2560850619 created "2016-12-16" @default.
W2560850619 creator A5006795380 @default.
W2560850619 creator A5051885473 @default.
W2560850619 creator A5056437521 @default.
W2560850619 creator A5065153388 @default.
W2560850619 creator A5074354102 @default.
W2560850619 creator A5074865219 @default.
W2560850619 creator A5083791733 @default.
W2560850619 creator A5087903118 @default.
W2560850619 date "2016-12-22" @default.
W2560850619 modified "2023-10-08" @default.
W2560850619 title "Single Nanochannel Platform for Detecting Chiral Drugs" @default.
W2560850619 cites W1909785536 @default.
W2560850619 cites W1968495513 @default.
W2560850619 cites W1970000720 @default.
W2560850619 cites W1972823670 @default.
W2560850619 cites W1996646275 @default.
W2560850619 cites W2008844778 @default.
W2560850619 cites W2009154251 @default.
W2560850619 cites W2013435855 @default.
W2560850619 cites W2018223465 @default.
W2560850619 cites W2018779653 @default.
W2560850619 cites W2021134586 @default.
W2560850619 cites W2030763962 @default.
W2560850619 cites W2030869244 @default.
W2560850619 cites W2031529035 @default.
W2560850619 cites W2031961095 @default.
W2560850619 cites W2033053026 @default.
W2560850619 cites W2037410656 @default.
W2560850619 cites W2037786644 @default.
W2560850619 cites W2048813028 @default.
W2560850619 cites W2049862315 @default.
W2560850619 cites W2051779338 @default.
W2560850619 cites W2056485178 @default.
W2560850619 cites W2065951872 @default.
W2560850619 cites W2066695726 @default.
W2560850619 cites W2068421088 @default.
W2560850619 cites W2068937297 @default.
W2560850619 cites W2068989866 @default.
W2560850619 cites W2085041883 @default.
W2560850619 cites W2086297198 @default.
W2560850619 cites W2087025419 @default.
W2560850619 cites W2090924278 @default.
W2560850619 cites W2108088139 @default.
W2560850619 cites W2110973288 @default.
W2560850619 cites W2112966923 @default.
W2560850619 cites W2116025127 @default.
W2560850619 cites W2120253520 @default.
W2560850619 cites W2143331248 @default.
W2560850619 cites W2160881164 @default.
W2560850619 cites W2164990853 @default.
W2560850619 cites W2306588978 @default.
W2560850619 cites W2314560461 @default.
W2560850619 cites W2315938049 @default.
W2560850619 cites W2326629025 @default.
W2560850619 cites W2332096337 @default.
W2560850619 cites W2333786766 @default.
W2560850619 cites W2408926249 @default.
W2560850619 cites W2472551131 @default.
W2560850619 cites W4236833456 @default.
W2560850619 cites W2070748696 @default.
W2560850619 doi "https://doi.org/10.1021/acs.analchem.6b02682" @default.
W2560850619 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28194990" @default.
W2560850619 hasPublicationYear "2016" @default.
W2560850619 type Work @default.
W2560850619 sameAs 2560850619 @default.
W2560850619 citedByCount "67" @default.
W2560850619 countsByYear W25608506192017 @default.
W2560850619 countsByYear W25608506192018 @default.
W2560850619 countsByYear W25608506192019 @default.
W2560850619 countsByYear W25608506192020 @default.
W2560850619 countsByYear W25608506192021 @default.
W2560850619 countsByYear W25608506192022 @default.
W2560850619 countsByYear W25608506192023 @default.
W2560850619 crossrefType "journal-article" @default.
W2560850619 hasAuthorship W2560850619A5006795380 @default.
W2560850619 hasAuthorship W2560850619A5051885473 @default.
W2560850619 hasAuthorship W2560850619A5056437521 @default.
W2560850619 hasAuthorship W2560850619A5065153388 @default.
W2560850619 hasAuthorship W2560850619A5074354102 @default.
W2560850619 hasAuthorship W2560850619A5074865219 @default.
W2560850619 hasAuthorship W2560850619A5083791733 @default.
W2560850619 hasAuthorship W2560850619A5087903118 @default.
W2560850619 hasConcept C118792377 @default.
W2560850619 hasConcept C142724271 @default.
W2560850619 hasConcept C146686406 @default.
W2560850619 hasConcept C155672457 @default.
W2560850619 hasConcept C161624437 @default.
W2560850619 hasConcept C161790260 @default.
W2560850619 hasConcept C171250308 @default.
W2560850619 hasConcept C178790620 @default.
W2560850619 hasConcept C185592680 @default.
W2560850619 hasConcept C192562407 @default.
W2560850619 hasConcept C204787440 @default.
W2560850619 hasConcept C21951064 @default.
W2560850619 hasConcept C2778115740 @default.
W2560850619 hasConcept C32909587 @default.