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W1796221562 endingPage "358" @default.
W1796221562 startingPage "353" @default.
W1796221562 abstract "Zinc oxide (ZnO) nanoparticles have been used in a wide-ranging of applications such as transparent UV protection, light emitting diodes, sensors and photovoltaic cells. Many applications of ZnO nanoparticles could be improved by changing the particle size, shape and morphology. Therefore, studying the mechanism of shape evolution is crucial for size and shape controlled synthesis of nanocrystaline ZnO particles. As an alternative to sophisticated techniques such as transmission electron microscopy (TEM) and X-ray powder diffraction (XRD), commonly used for studying nanoparticles evolution, we herein employed UV/Vis spectroscopy for monitoring the evolution process of the ZnO nanocrystals coupled with chemometric methods for analyzing overlapped and complex spectral data. The evolutionary UV-Visible absorbance data of ZnO nanoparticles through particle formation via precipitation methods in various solution conditions were analyzed using factor analysis, evolving factor analysis, and multivariate curve resolution-alternative least-squares analysis. Depending on chemical routs, three or four chemical factors that attributed to the ZnO nanoparticles of different size were detected and the concentration profiles and pure spectra of the particles were resolved. The interpretation of the evolution profiles of the detected ZnO nanoparticles were achieved by Ostwald ripening mechanism. Copyright © 2013 John Wiley & Sons, Ltd." @default.
W1796221562 created "2016-06-24" @default.
W1796221562 creator A5048205204 @default.
W1796221562 creator A5053631156 @default.
W1796221562 creator A5090579968 @default.
W1796221562 date "2013-07-14" @default.
W1796221562 modified "2023-09-26" @default.
W1796221562 title "Detecting intermediate particles in the growth of colloidal zinc oxide nanoparticles in different chemical routes using MCR-ALS" @default.
W1796221562 cites W1494178231 @default.
W1796221562 cites W1579462255 @default.
W1796221562 cites W1591353295 @default.
W1796221562 cites W1964967481 @default.
W1796221562 cites W1968522997 @default.
W1796221562 cites W1975508782 @default.
W1796221562 cites W1980428552 @default.
W1796221562 cites W1981452946 @default.
W1796221562 cites W1985827703 @default.
W1796221562 cites W1987763890 @default.
W1796221562 cites W1989247463 @default.
W1796221562 cites W1990421079 @default.
W1796221562 cites W1991615735 @default.
W1796221562 cites W1993271018 @default.
W1796221562 cites W1993588203 @default.
W1796221562 cites W1994526311 @default.
W1796221562 cites W2000164285 @default.
W1796221562 cites W2000700514 @default.
W1796221562 cites W2001067202 @default.
W1796221562 cites W2019761406 @default.
W1796221562 cites W2030411161 @default.
W1796221562 cites W2031063876 @default.
W1796221562 cites W2035949153 @default.
W1796221562 cites W2039902016 @default.
W1796221562 cites W2041694430 @default.
W1796221562 cites W2045023774 @default.
W1796221562 cites W2047302526 @default.
W1796221562 cites W2049972041 @default.
W1796221562 cites W2053109387 @default.
W1796221562 cites W2059146608 @default.
W1796221562 cites W2060068899 @default.
W1796221562 cites W2060533155 @default.
W1796221562 cites W2061442108 @default.
W1796221562 cites W2069605164 @default.
W1796221562 cites W2072566598 @default.
W1796221562 cites W2076658244 @default.
W1796221562 cites W2077851774 @default.
W1796221562 cites W2079195410 @default.
W1796221562 cites W2079407895 @default.
W1796221562 cites W2080525514 @default.
W1796221562 cites W2082350912 @default.
W1796221562 cites W2082354437 @default.
W1796221562 cites W2083039595 @default.
W1796221562 cites W2086271246 @default.
W1796221562 cites W2087002485 @default.
W1796221562 cites W2087273713 @default.
W1796221562 cites W2087323206 @default.
W1796221562 cites W2088337562 @default.
W1796221562 cites W2088642849 @default.
W1796221562 cites W2103163486 @default.
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W1796221562 cites W2161109571 @default.
W1796221562 cites W2170770070 @default.
W1796221562 cites W4465840 @default.
W1796221562 doi "https://doi.org/10.1002/cem.2516" @default.
W1796221562 hasPublicationYear "2013" @default.
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