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W2989797470 abstract "Abstract Rare earth metal oxide nanomaterials have drawn much attention in recent decades due to their unique properties and promising applications in catalysis, chemical and biological sensing, separation, and optical devices. Because of the strong structure–property correlation, controllable synthesis of nanomaterials with desired properties has long been the most important topic in nanoscience and nanotechnology and still maintains a grand challenge. A variety of methods, involving chemical, physical, and hybrid method, have been developed to precisely control nanomaterials, including size, shape, dimensionality, crystal structure, composition, and homogeneity. These nanostructural parameters play essential roles in determining the final properties of functional nanomaterials. Full understanding of nanomaterial properties through characterization is vital in elucidating the fundamental principles in synthesis and applications. It allows researchers to discover the correlations between the reaction parameters and nanomaterial properties, offers valuable insights in improving synthetic routes, and provokes new design strategies for nanostructures. In application systems, it extrapolates the structure–activity relationship and reaction mechanism and helps to establish quality model for similar reaction processes. The purpose of this chapter is to provide a comprehensive overview and a practical guide of rare earth oxide nanomaterial design and characterization, with special focus on the well-established synthetic methods and the conventional and advanced analytical techniques. This chapter addresses each synthetic method with its advantages and certain disadvantages, and specifically provides synthetic strategies, typical procedures and features of resulting nanomaterials for the widely-used chemical methods, such as hydrothermal, solvothermal, sol–gel, co-precipitation, thermal decomposition, etc. For the nanomaterial characterization, a practical guide for each technique is addressed, including working principle, applications, materials requirements, experimental design and data analysis. In particular, electron and force microscopy are illuminated for their powerful functions in determining size, shape, and crystal structure, while X-ray based techniques are discussed for crystalline, electronic, and atomic structural determination for oxide nanomaterials. Additionally, the advanced characterization methodologies of synchrotron-based techniques and in situ methods are included. These non-traditional methods become more and more popular because of their capabilities of offering unusual nanostructural information, short experiment time, and in-depth problem solution. Graphical Abstract :" @default.
W2989797470 created "2019-12-05" @default.
W2989797470 creator A5055643373 @default.
W2989797470 date "2019-11-20" @default.
W2989797470 modified "2023-09-26" @default.
W2989797470 title "Controllable design, synthesis and characterization of nanostructured rare earth metal oxides" @default.
W2989797470 cites W141123835 @default.
W2989797470 cites W1417557982 @default.
W2989797470 cites W152094900 @default.
W2989797470 cites W1539169903 @default.
W2989797470 cites W1561981814 @default.
W2989797470 cites W1737444531 @default.
W2989797470 cites W1746820401 @default.
W2989797470 cites W1853028854 @default.
W2989797470 cites W1893417299 @default.
W2989797470 cites W1938943489 @default.
W2989797470 cites W1955797426 @default.
W2989797470 cites W1963830108 @default.
W2989797470 cites W1966632101 @default.
W2989797470 cites W1968418601 @default.
W2989797470 cites W1968851607 @default.
W2989797470 cites W1969879947 @default.
W2989797470 cites W1971070595 @default.
W2989797470 cites W1971380770 @default.
W2989797470 cites W1971576430 @default.
W2989797470 cites W1976713666 @default.
W2989797470 cites W1976927697 @default.
W2989797470 cites W1979434356 @default.
W2989797470 cites W1979643495 @default.
W2989797470 cites W1979783000 @default.
W2989797470 cites W1980495221 @default.
W2989797470 cites W1980537545 @default.
W2989797470 cites W1984580252 @default.
W2989797470 cites W1984827505 @default.
W2989797470 cites W1984924048 @default.
W2989797470 cites W1986684163 @default.
W2989797470 cites W1986715836 @default.
W2989797470 cites W1986981651 @default.
W2989797470 cites W1991986533 @default.
W2989797470 cites W1991999500 @default.
W2989797470 cites W1995379479 @default.
W2989797470 cites W1996621659 @default.
W2989797470 cites W1997215103 @default.
W2989797470 cites W1999315964 @default.
W2989797470 cites W1999662869 @default.
W2989797470 cites W2000215410 @default.
W2989797470 cites W2000683911 @default.
W2989797470 cites W2004616915 @default.
W2989797470 cites W2005272188 @default.
W2989797470 cites W2005576529 @default.
W2989797470 cites W2005798029 @default.
W2989797470 cites W2009106774 @default.
W2989797470 cites W2018229133 @default.
W2989797470 cites W2018727046 @default.
W2989797470 cites W2020044245 @default.
W2989797470 cites W2033489655 @default.
W2989797470 cites W2034496824 @default.
W2989797470 cites W2034938649 @default.
W2989797470 cites W2035165353 @default.
W2989797470 cites W2035926697 @default.
W2989797470 cites W2037030054 @default.
W2989797470 cites W2038689894 @default.
W2989797470 cites W2039881946 @default.
W2989797470 cites W2040052320 @default.
W2989797470 cites W2040897630 @default.
W2989797470 cites W2044655510 @default.
W2989797470 cites W2046572381 @default.
W2989797470 cites W2047582399 @default.
W2989797470 cites W2047679413 @default.
W2989797470 cites W2048745156 @default.
W2989797470 cites W2051401391 @default.
W2989797470 cites W2053268170 @default.
W2989797470 cites W2054730135 @default.
W2989797470 cites W2055589883 @default.
W2989797470 cites W2058115665 @default.
W2989797470 cites W2058319857 @default.
W2989797470 cites W2060814152 @default.
W2989797470 cites W2062259575 @default.
W2989797470 cites W2062749614 @default.
W2989797470 cites W2063011053 @default.
W2989797470 cites W2065477664 @default.
W2989797470 cites W2065891753 @default.
W2989797470 cites W2067298227 @default.
W2989797470 cites W2068043331 @default.
W2989797470 cites W2068718906 @default.
W2989797470 cites W2069699217 @default.
W2989797470 cites W2069795462 @default.
W2989797470 cites W2070584741 @default.
W2989797470 cites W2071977125 @default.
W2989797470 cites W2072531504 @default.
W2989797470 cites W2074600210 @default.
W2989797470 cites W2076003978 @default.
W2989797470 cites W2078036334 @default.
W2989797470 cites W2078968560 @default.
W2989797470 cites W2079896377 @default.
W2989797470 cites W2079933899 @default.
W2989797470 cites W2080261398 @default.
W2989797470 cites W2080611523 @default.
W2989797470 cites W2081784115 @default.
W2989797470 cites W2083133363 @default.