SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2000883194> ?p ?o ?g. }

Showing items 1 to 100 of ±174 with 100 items per page.

W2000883194 endingPage "16420" @default.
W2000883194 startingPage "16420" @default.
W2000883194 abstract "A novel, fibrous-structured bifunctional (magnetic and mesoporous) Fe3O4/silica microsphere was successfully synthesized through a simple and economical self-assembled process in which hydrophobic 9 nm-Fe3O4nanocrystals were directly used without modifications. The obtained material is performed as a drug delivery carrier to investigate the in vitro and intracellular delivery properties of doxorubicin hydrochloride (DOX). X-Ray diffraction (XRD), scanning electron microscopy (SEM), transmission electron microscopy (TEM), N2adsorption/desorption, Fourier transform infrared spectroscopy (FT-IR), and superconducting quantum interference device (SQUID) were employed to characterize the composite. The results reveal that the novel composite exhibits typical mesoporous structure, narrow size distribution, good monodispersity, and superparamagnetic features. Notably, confocal laser scanning microscopy (CLSM) images indicate that the DOX-loaded sample could deliver DOX into the nuclei of HeLa cells to kill cells. Also, MTT assay confirms that the DOX-loaded sample leads to pronounced and efficient cytotoxic effects to L929 fibroblast cells, even similar to that of free DOX at high concentrations, whereas the pure material is non-toxic. Therefore, the novel material is expected to have potential application for targeted cancer therapy." @default.
W2000883194 created "2016-06-24" @default.
W2000883194 creator A5012553332 @default.
W2000883194 creator A5029227437 @default.
W2000883194 creator A5044436814 @default.
W2000883194 creator A5046349034 @default.
W2000883194 creator A5057605353 @default.
W2000883194 creator A5062571272 @default.
W2000883194 creator A5067162181 @default.
W2000883194 creator A5068723280 @default.
W2000883194 date "2011-01-01" @default.
W2000883194 modified "2023-09-30" @default.
W2000883194 title "Fibrous-structured magnetic and mesoporous Fe3O4/silica microspheres: synthesis and intracellular doxorubicin delivery" @default.
W2000883194 cites W1964238882 @default.
W2000883194 cites W1968293067 @default.
W2000883194 cites W1968573340 @default.
W2000883194 cites W1977644410 @default.
W2000883194 cites W1983520494 @default.
W2000883194 cites W1986347816 @default.
W2000883194 cites W1992985479 @default.
W2000883194 cites W1998212968 @default.
W2000883194 cites W1998820660 @default.
W2000883194 cites W2001168539 @default.
W2000883194 cites W2002109048 @default.
W2000883194 cites W2004602103 @default.
W2000883194 cites W2006708847 @default.
W2000883194 cites W2009944115 @default.
W2000883194 cites W2010734100 @default.
W2000883194 cites W2012036400 @default.
W2000883194 cites W2013980860 @default.
W2000883194 cites W2014197436 @default.
W2000883194 cites W2015295070 @default.
W2000883194 cites W2015631141 @default.
W2000883194 cites W2017746519 @default.
W2000883194 cites W2018725625 @default.
W2000883194 cites W2024158874 @default.
W2000883194 cites W2030107850 @default.
W2000883194 cites W2036670812 @default.
W2000883194 cites W2037342113 @default.
W2000883194 cites W2039453656 @default.
W2000883194 cites W2045777913 @default.
W2000883194 cites W2047651080 @default.
W2000883194 cites W2048393999 @default.
W2000883194 cites W2048553013 @default.
W2000883194 cites W2049044406 @default.
W2000883194 cites W2052465295 @default.
W2000883194 cites W2053309100 @default.
W2000883194 cites W2054275946 @default.
W2000883194 cites W2058478190 @default.
W2000883194 cites W2060475920 @default.
W2000883194 cites W2062360485 @default.
W2000883194 cites W2069179556 @default.
W2000883194 cites W2070517548 @default.
W2000883194 cites W2072441208 @default.
W2000883194 cites W2072697541 @default.
W2000883194 cites W2074206592 @default.
W2000883194 cites W2083182800 @default.
W2000883194 cites W2087239824 @default.
W2000883194 cites W2089365410 @default.
W2000883194 cites W2090316456 @default.
W2000883194 cites W2091944514 @default.
W2000883194 cites W2094149641 @default.
W2000883194 cites W2094437628 @default.
W2000883194 cites W2100026459 @default.
W2000883194 cites W2106926141 @default.
W2000883194 cites W2115467182 @default.
W2000883194 cites W2118969052 @default.
W2000883194 cites W2137265130 @default.
W2000883194 cites W2167243784 @default.
W2000883194 cites W2170913114 @default.
W2000883194 cites W3023255929 @default.
W2000883194 cites W4241057416 @default.
W2000883194 cites W4245193729 @default.
W2000883194 doi "https://doi.org/10.1039/c1jm13357h" @default.
W2000883194 hasPublicationYear "2011" @default.
W2000883194 type Work @default.
W2000883194 sameAs 2000883194 @default.
W2000883194 citedByCount "91" @default.
W2000883194 countsByYear W20008831942012 @default.
W2000883194 countsByYear W20008831942013 @default.
W2000883194 countsByYear W20008831942014 @default.
W2000883194 countsByYear W20008831942015 @default.
W2000883194 countsByYear W20008831942016 @default.
W2000883194 countsByYear W20008831942017 @default.
W2000883194 countsByYear W20008831942018 @default.
W2000883194 countsByYear W20008831942019 @default.
W2000883194 countsByYear W20008831942020 @default.
W2000883194 countsByYear W20008831942021 @default.
W2000883194 countsByYear W20008831942022 @default.
W2000883194 countsByYear W20008831942023 @default.
W2000883194 crossrefType "journal-article" @default.
W2000883194 hasAuthorship W2000883194A5012553332 @default.
W2000883194 hasAuthorship W2000883194A5029227437 @default.
W2000883194 hasAuthorship W2000883194A5044436814 @default.
W2000883194 hasAuthorship W2000883194A5046349034 @default.
W2000883194 hasAuthorship W2000883194A5057605353 @default.
W2000883194 hasAuthorship W2000883194A5062571272 @default.
W2000883194 hasAuthorship W2000883194A5067162181 @default.