SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2008382489> ?p ?o ?g. }

Showing items 1 to 100 of ±148 with 100 items per page.

W2008382489 endingPage "19770" @default.
W2008382489 startingPage "19759" @default.
W2008382489 abstract "The development of nanomaterials for next generation photonic, optoelectronic, and catalytic applications requires a robust synthetic toolkit for systematically tuning composition, phase, and morphology at nanometer length scales. While de novo synthetic methods for preparing nanomaterials from molecular precursors have advanced considerably in recent years, postsynthetic modifications of these preformed nanostructures have enabled the stepwise construction of complex nanomaterials. Among these postsynthetic transformations, cation exchange reactions, in which the cations ligated within a nanocrystal host lattice are substituted with those in solution, have emerged as particularly powerful tools for fine-grained control over nanocrystal composition and phase. In this feature article, we review the fundamental thermodynamic and kinetic basis for cation exchange reactions in colloidal semiconductor nanocrystals and highlight its synthetic versatility for accessing nanomaterials intractable by direct synthetic methods from molecular precursors. Unlike analogous ion substitution reactions in extended solids, cation exchange reactions at the nanoscale benefit from rapid reaction rates and facile modulation of reaction thermodynamics via selective ion coordination in solution. The preservation of the morphology of the initial nanocrystal template upon exchange, coupled with stoichiometric control over the extent of reaction, enables the formation of nanocrystals with compositions, morphologies, and crystal phases that are not readily accessible by conventional synthetic methods." @default.
W2008382489 created "2016-06-24" @default.
W2008382489 creator A5009848674 @default.
W2008382489 creator A5021899292 @default.
W2008382489 creator A5089301904 @default.
W2008382489 date "2013-09-19" @default.
W2008382489 modified "2023-10-18" @default.
W2008382489 title "Cation Exchange: A Versatile Tool for Nanomaterials Synthesis" @default.
W2008382489 cites W1502053726 @default.
W2008382489 cites W1513209253 @default.
W2008382489 cites W1966144859 @default.
W2008382489 cites W1974781975 @default.
W2008382489 cites W1976301510 @default.
W2008382489 cites W1977107800 @default.
W2008382489 cites W1979652042 @default.
W2008382489 cites W1980347898 @default.
W2008382489 cites W1989086133 @default.
W2008382489 cites W1990752779 @default.
W2008382489 cites W1993306159 @default.
W2008382489 cites W1996259855 @default.
W2008382489 cites W2002034782 @default.
W2008382489 cites W2002734629 @default.
W2008382489 cites W2006942752 @default.
W2008382489 cites W2007941671 @default.
W2008382489 cites W2012474468 @default.
W2008382489 cites W2013726616 @default.
W2008382489 cites W2016759175 @default.
W2008382489 cites W2019292817 @default.
W2008382489 cites W2019336051 @default.
W2008382489 cites W2020526701 @default.
W2008382489 cites W2020971208 @default.
W2008382489 cites W2022831883 @default.
W2008382489 cites W2025675818 @default.
W2008382489 cites W2029071568 @default.
W2008382489 cites W2029862587 @default.
W2008382489 cites W2033208470 @default.
W2008382489 cites W2034864564 @default.
W2008382489 cites W2038980827 @default.
W2008382489 cites W2039501915 @default.
W2008382489 cites W2039720442 @default.
W2008382489 cites W2044543075 @default.
W2008382489 cites W2044740711 @default.
W2008382489 cites W2047571714 @default.
W2008382489 cites W2056147065 @default.
W2008382489 cites W2059221203 @default.
W2008382489 cites W2064158921 @default.
W2008382489 cites W2066407685 @default.
W2008382489 cites W2067519734 @default.
W2008382489 cites W2068559689 @default.
W2008382489 cites W2071794968 @default.
W2008382489 cites W2073621690 @default.
W2008382489 cites W2074644185 @default.
W2008382489 cites W2076571348 @default.
W2008382489 cites W2078833116 @default.
W2008382489 cites W2079065848 @default.
W2008382489 cites W2085788546 @default.
W2008382489 cites W2086834495 @default.
W2008382489 cites W2090716448 @default.
W2008382489 cites W2091279318 @default.
W2008382489 cites W2091800881 @default.
W2008382489 cites W2106837799 @default.
W2008382489 cites W2109000502 @default.
W2008382489 cites W2111391981 @default.
W2008382489 cites W2112012061 @default.
W2008382489 cites W2113020843 @default.
W2008382489 cites W2117547910 @default.
W2008382489 cites W2119271146 @default.
W2008382489 cites W2122500422 @default.
W2008382489 cites W2125594787 @default.
W2008382489 cites W2135725094 @default.
W2008382489 cites W2154029066 @default.
W2008382489 cites W2154321074 @default.
W2008382489 cites W2156173941 @default.
W2008382489 cites W2166163425 @default.
W2008382489 cites W2168172378 @default.
W2008382489 cites W2168657969 @default.
W2008382489 cites W2172127771 @default.
W2008382489 cites W2172201846 @default.
W2008382489 cites W2329837688 @default.
W2008382489 cites W2331237198 @default.
W2008382489 cites W2335500597 @default.
W2008382489 cites W4210951165 @default.
W2008382489 cites W4211018841 @default.
W2008382489 cites W4247840172 @default.
W2008382489 cites W69355727 @default.
W2008382489 doi "https://doi.org/10.1021/jp405989z" @default.
W2008382489 hasPublicationYear "2013" @default.
W2008382489 type Work @default.
W2008382489 sameAs 2008382489 @default.
W2008382489 citedByCount "396" @default.
W2008382489 countsByYear W20083824892013 @default.
W2008382489 countsByYear W20083824892014 @default.
W2008382489 countsByYear W20083824892015 @default.
W2008382489 countsByYear W20083824892016 @default.
W2008382489 countsByYear W20083824892017 @default.
W2008382489 countsByYear W20083824892018 @default.
W2008382489 countsByYear W20083824892019 @default.
W2008382489 countsByYear W20083824892020 @default.