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Praseodymium substituted cerium

Praseodymium-Substituted Cerium Hydrazine Carboxylate Hydrate... [Pg.148]

The main objective of our study was to modify the composition of Ce02 and Zro.10Ceo.90O2 samples, in order to follow the influence of cerium substitution by praseodymium and to enhance both thermal stability and oxygen storage capacity. The results will be discussed on the basis of DTA, XRD, Raman spectroscopy, BET surface area and OSC data. [Pg.601]

In comparison to samarium and ytterbium salts, there were few examples for cerium, praseodymium, and other the rare earth metals catalyzed aldol reaction (214,215). In 2000s, Samarium salts, especially Sml2, have been used in versatile aldol reactions, for example, direct aldol of aldehydes and substituted oxi-ranyl ketones (216), nitro aldol reaction (217,218), intramolecular aldol reaction (219), and other aldol reaction of special carbonyl compounds (220-222). However, catalytic asymmetric samarium-catalytic aldol reaction was not reported so far. In the asymmetric version of the aldol reaction, ytterbium exhibited promising enantioinduction. In the first example of the asymmetric ytterbium-catalyzed aldol reaction, moderate levels of enantioselectivities were achieved (Scheme 56) (223). Subsequently, Mlynarski and co-workers improved enatioinduction ability of the ytterbium-catalyzed aldol reaction by using catalytic amount of Yb(OTf)3... [Pg.2233]

Figure 2.16 shows the charge-discharge cycle characteristics of alloys in which part of the nickel component was replaced with cobalt. Misch metal (Mm), which is a mixture of rare earth elements such as lanthanum, cerium, praseodymium, and neodymium, was used in place of lanthanum. It was found that the partial replacement of nickel with cobalt and the substitution of the lanthanum content with Mm was very useful in improving the charge-discharge cycle life. However, such alloys have insufficient capacity, as shown in Figure 2.17 [18]. From study of the effect that their compositions had on the charge-discharge capacity, it was concluded that the best alloy elements were Mm(Ni-Co-Al-Mn)This alloy led to the commercialization of sealed nickel-M H batteries. All the battery manufacturers who use a rare earth-nickel-type alloy for the negative electrode material employ similar alloys with slightly different compositions. Figure 2.16 shows the charge-discharge cycle characteristics of alloys in which part of the nickel component was replaced with cobalt. Misch metal (Mm), which is a mixture of rare earth elements such as lanthanum, cerium, praseodymium, and neodymium, was used in place of lanthanum. It was found that the partial replacement of nickel with cobalt and the substitution of the lanthanum content with Mm was very useful in improving the charge-discharge cycle life. However, such alloys have insufficient capacity, as shown in Figure 2.17 [18]. From study of the effect that their compositions had on the charge-discharge capacity, it was concluded that the best alloy elements were Mm(Ni-Co-Al-Mn)This alloy led to the commercialization of sealed nickel-M H batteries. All the battery manufacturers who use a rare earth-nickel-type alloy for the negative electrode material employ similar alloys with slightly different compositions.
See other pages where Praseodymium substituted cerium is mentioned: [Pg.100]    [Pg.27]    [Pg.130]    [Pg.601]    [Pg.603]    [Pg.604]    [Pg.450]    [Pg.436]    [Pg.509]   


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Praseodymium-Substituted Cerium Hydrazine Carboxylate Hydrate

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