SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4231501883> ?p ?o ?g. }

Showing items 1 to 100 of ±128 with 100 items per page.

W4231501883 abstract "Detection of specific nucleic acid targets is of enormous and increasing interest in molecular biodiagnostics, food analysis, forensic investigation, and environmental monitoring. The advancement of nanotechnology with a myriad of novel and engineered nanomaterials and their hybrids with attractive physiochemical properties has raised hopes for the development of DNA sensors capable of identifying specific nucleic acid sequences with single molecule precision, avoiding the need of skilled personnel or sophisticated machineries. Compared to the traditional sensing platforms, DNA–nanomaterial hybrids provide better sensitivity and multiplexing facility, reducing analysis cost and increasing detection precision by several orders of magnitudes. The biofusion of DNA with nanostructured gold, nanostructured silica, nanogap semiconductors, carbon nanotubes, graphenes, and quantum dots has shown great possibilities to fabricate specialized nanostructured configurations capable of enhancing DNA detection several-fold. Miniaturized devices with embedded DNA of thousands of fingerprints in lab-on-a-chip are no longer a surprise. Here, we describe potential candidate nanomaterials and their molecular binding patterns with DNA to constitute a sensing platform for nucleic acid targets. The future perspectives and challenges of nanotechnology strategies are also outlined." @default.
W4231501883 created "2022-05-12" @default.
W4231501883 creator A5006794924 @default.
W4231501883 creator A5025530661 @default.
W4231501883 creator A5026851120 @default.
W4231501883 creator A5029981313 @default.
W4231501883 creator A5035226786 @default.
W4231501883 creator A5039481572 @default.
W4231501883 creator A5041446513 @default.
W4231501883 creator A5062644316 @default.
W4231501883 creator A5073883170 @default.
W4231501883 date "2021-01-01" @default.
W4231501883 modified "2023-09-27" @default.
W4231501883 title "Nanostructured Materials: Bioengineering Platforms for Sensing Nucleic Acids" @default.
W4231501883 cites W1044544720 @default.
W4231501883 cites W1532669891 @default.
W4231501883 cites W1964951606 @default.
W4231501883 cites W1969459881 @default.
W4231501883 cites W1979232921 @default.
W4231501883 cites W1982089856 @default.
W4231501883 cites W1986948090 @default.
W4231501883 cites W1987955629 @default.
W4231501883 cites W1990721269 @default.
W4231501883 cites W1992447626 @default.
W4231501883 cites W1992531568 @default.
W4231501883 cites W1998734880 @default.
W4231501883 cites W2000813491 @default.
W4231501883 cites W2008081243 @default.
W4231501883 cites W2012130949 @default.
W4231501883 cites W2014054559 @default.
W4231501883 cites W2015248366 @default.
W4231501883 cites W2015571727 @default.
W4231501883 cites W2019385961 @default.
W4231501883 cites W2024033148 @default.
W4231501883 cites W2028310736 @default.
W4231501883 cites W2029412530 @default.
W4231501883 cites W2029886097 @default.
W4231501883 cites W2030583923 @default.
W4231501883 cites W2032854318 @default.
W4231501883 cites W2033539240 @default.
W4231501883 cites W2042241638 @default.
W4231501883 cites W2042480537 @default.
W4231501883 cites W2042823734 @default.
W4231501883 cites W2043381968 @default.
W4231501883 cites W2046052750 @default.
W4231501883 cites W2050005133 @default.
W4231501883 cites W2050092543 @default.
W4231501883 cites W2050625776 @default.
W4231501883 cites W2052156135 @default.
W4231501883 cites W2053145077 @default.
W4231501883 cites W2053179225 @default.
W4231501883 cites W2053699276 @default.
W4231501883 cites W2054405994 @default.
W4231501883 cites W2062875916 @default.
W4231501883 cites W2063079745 @default.
W4231501883 cites W2077211916 @default.
W4231501883 cites W2078820160 @default.
W4231501883 cites W2095469093 @default.
W4231501883 cites W2101477230 @default.
W4231501883 cites W2116267801 @default.
W4231501883 cites W2116821353 @default.
W4231501883 cites W2135324507 @default.
W4231501883 cites W2136170082 @default.
W4231501883 cites W2144218042 @default.
W4231501883 cites W2165001450 @default.
W4231501883 cites W2165372505 @default.
W4231501883 cites W2165895228 @default.
W4231501883 cites W2167243784 @default.
W4231501883 cites W2168076509 @default.
W4231501883 cites W2168442336 @default.
W4231501883 cites W2169756563 @default.
W4231501883 cites W2169850451 @default.
W4231501883 cites W2330305616 @default.
W4231501883 cites W2952197875 @default.
W4231501883 cites W3096946984 @default.
W4231501883 cites W4211174049 @default.
W4231501883 cites W4235097377 @default.
W4231501883 cites W4248332241 @default.
W4231501883 cites W4250991820 @default.
W4231501883 cites W746325161 @default.
W4231501883 cites W915632730 @default.
W4231501883 doi "https://doi.org/10.1016/b978-0-12-815732-9.00154-6" @default.
W4231501883 hasPublicationYear "2021" @default.
W4231501883 type Work @default.
W4231501883 citedByCount "1" @default.
W4231501883 countsByYear W42315018832022 @default.
W4231501883 crossrefType "book-chapter" @default.
W4231501883 hasAuthorship W4231501883A5006794924 @default.
W4231501883 hasAuthorship W4231501883A5025530661 @default.
W4231501883 hasAuthorship W4231501883A5026851120 @default.
W4231501883 hasAuthorship W4231501883A5029981313 @default.
W4231501883 hasAuthorship W4231501883A5035226786 @default.
W4231501883 hasAuthorship W4231501883A5039481572 @default.
W4231501883 hasAuthorship W4231501883A5041446513 @default.
W4231501883 hasAuthorship W4231501883A5062644316 @default.
W4231501883 hasAuthorship W4231501883A5073883170 @default.
W4231501883 hasBestOaLocation W42315018832 @default.
W4231501883 hasConcept C138631740 @default.
W4231501883 hasConcept C171250308 @default.
W4231501883 hasConcept C185592680 @default.