FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2017191706> ?p ?o ?g. }

• W2017191706 endingPage "882" @default.
• W2017191706 startingPage "879" @default.
• W2017191706 abstract "Abstract Twinkle, twinkle: The blinking of semiconductor colloidal nanocrystals is the main inconvenience of these bright nanoemitters. There are various approaches for obtaining non‐blinking nanocrystals, one of which is to grow a thick coat of CdS on the CdSe core (see picture). Applications of this method in the fields of optoelectronic devices, biologic labelling and quantum information processing are discussed. magnified image The blinking of semiconductor colloidal nanocrystals is the main inconvenience of these bright nanoemitters. For some years, research on this phenomenon has demonstrated the possibility to progress beyond this problem by suppressing this fluorescence intermittency in various ways. After a brief overview on the microscopic mechanism of blinking, we review the various approaches used to obtain non‐blinking nanocrystals and discuss the commitment of this crucial improvement to applications in the fields of optoelectronic devices, biologic labelling and quantum information processing." @default.
• W2017191706 created "2016-06-24" @default.
• W2017191706 creator A5032686877 @default.
• W2017191706 creator A5034246049 @default.
• W2017191706 creator A5072566536 @default.
• W2017191706 creator A5082796272 @default.
• W2017191706 creator A5088364603 @default.
• W2017191706 creator A5090136429 @default.
• W2017191706 date "2009-04-03" @default.
• W2017191706 modified "2023-10-17" @default.
• W2017191706 title "Non‐Blinking Semiconductor Colloidal Quantum Dots for Biology, Optoelectronics and Quantum Optics" @default.
• W2017191706 cites W1574801731 @default.
• W2017191706 cites W1966751110 @default.
• W2017191706 cites W1971217997 @default.
• W2017191706 cites W1972793495 @default.
• W2017191706 cites W1977683464 @default.
• W2017191706 cites W1978351395 @default.
• W2017191706 cites W1987924718 @default.
• W2017191706 cites W1990683528 @default.
• W2017191706 cites W2004567430 @default.
• W2017191706 cites W2009430982 @default.
• W2017191706 cites W2009638928 @default.
• W2017191706 cites W2011780254 @default.
• W2017191706 cites W2013597214 @default.
• W2017191706 cites W2015497606 @default.
• W2017191706 cites W2019563202 @default.
• W2017191706 cites W2019638687 @default.
• W2017191706 cites W2021179200 @default.
• W2017191706 cites W2025019863 @default.
• W2017191706 cites W2028136324 @default.
• W2017191706 cites W2031423308 @default.
• W2017191706 cites W2032706441 @default.
• W2017191706 cites W2037812877 @default.
• W2017191706 cites W2038980827 @default.
• W2017191706 cites W2039655645 @default.
• W2017191706 cites W2040220468 @default.
• W2017191706 cites W2050189664 @default.
• W2017191706 cites W2052624817 @default.
• W2017191706 cites W2062292557 @default.
• W2017191706 cites W2063339934 @default.
• W2017191706 cites W2064082647 @default.
• W2017191706 cites W2067324553 @default.
• W2017191706 cites W2071261836 @default.
• W2017191706 cites W2072113905 @default.
• W2017191706 cites W2073532007 @default.
• W2017191706 cites W2077841486 @default.
• W2017191706 cites W2083728197 @default.
• W2017191706 cites W2086754387 @default.
• W2017191706 cites W2093774122 @default.
• W2017191706 cites W2094174092 @default.
• W2017191706 cites W2099654480 @default.
• W2017191706 cites W2105912301 @default.
• W2017191706 cites W2115615940 @default.
• W2017191706 cites W2119421734 @default.
• W2017191706 cites W2154321074 @default.
• W2017191706 cites W3038067977 @default.
• W2017191706 doi "https://doi.org/10.1002/cphc.200800827" @default.
• W2017191706 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19294684" @default.
• W2017191706 hasPublicationYear "2009" @default.
• W2017191706 type Work @default.
• W2017191706 sameAs 2017191706 @default.
• W2017191706 citedByCount "29" @default.
• W2017191706 countsByYear W20171917062012 @default.
• W2017191706 countsByYear W20171917062013 @default.
• W2017191706 countsByYear W20171917062014 @default.
• W2017191706 countsByYear W20171917062015 @default.
• W2017191706 countsByYear W20171917062016 @default.
• W2017191706 countsByYear W20171917062021 @default.
• W2017191706 countsByYear W20171917062022 @default.
• W2017191706 crossrefType "journal-article" @default.
• W2017191706 hasAuthorship W2017191706A5032686877 @default.
• W2017191706 hasAuthorship W2017191706A5034246049 @default.
• W2017191706 hasAuthorship W2017191706A5072566536 @default.
• W2017191706 hasAuthorship W2017191706A5082796272 @default.
• W2017191706 hasAuthorship W2017191706A5088364603 @default.
• W2017191706 hasAuthorship W2017191706A5090136429 @default.
• W2017191706 hasConcept C108225325 @default.
• W2017191706 hasConcept C120665830 @default.
• W2017191706 hasConcept C121332964 @default.
• W2017191706 hasConcept C124657808 @default.
• W2017191706 hasConcept C171250308 @default.
• W2017191706 hasConcept C175854130 @default.
• W2017191706 hasConcept C192562407 @default.
• W2017191706 hasConcept C2987941056 @default.
• W2017191706 hasConcept C49040817 @default.
• W2017191706 hasConcept C62520636 @default.
• W2017191706 hasConcept C84114770 @default.
• W2017191706 hasConcept C91881484 @default.
• W2017191706 hasConceptScore W2017191706C108225325 @default.
• W2017191706 hasConceptScore W2017191706C120665830 @default.
• W2017191706 hasConceptScore W2017191706C121332964 @default.
• W2017191706 hasConceptScore W2017191706C124657808 @default.
• W2017191706 hasConceptScore W2017191706C171250308 @default.
• W2017191706 hasConceptScore W2017191706C175854130 @default.
• W2017191706 hasConceptScore W2017191706C192562407 @default.
• W2017191706 hasConceptScore W2017191706C2987941056 @default.
• W2017191706 hasConceptScore W2017191706C49040817 @default.
• W2017191706 hasConceptScore W2017191706C62520636 @default.

• next