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Storage reversible

Hydrogen storage Reversible storage of H2 on nanotubular Ti02 arrays [234-246]... [Pg.38]

Storage as Hydrides. The discovery of metal compounds that reversibly absorb hydrogen is relatively recent. In the 1970s, the AB and AB family of alloys, which reversibly absorb hydrogen at room temperature and low pressure, were identified (205). Both A and B are metals. As of this writing many such compounds are known LaNi and TiFe are examples. [Pg.429]

A most important element in computer technology is data storage. Progress in microelectronics, therefore, is directly linked to progress in data storage, that is the abihty to store large amounts of information in the smallest possible space, irreversibly or preferably reversibly. [Pg.138]

Fig. 19. Reversible data storage by means of a command surface (149,151—153). Fig. 19. Reversible data storage by means of a command surface (149,151—153).
The application of nonlinear optical recording techniques for reversible optical data storage based on the excitation of photochromic molecules by two-photon processes also has been described (154). [Pg.153]

The lanthanides can form hydrides (qv) of any composition up to LnH. Lanthanide hydrides can desorb hydrogen reversibly with temperature. Therefore, the lanthanides and some of thek alloys ate good candidates for hydrogen (qv) storage, of which LaNi is probably the most promising (see... [Pg.541]

Crystallization. Raw natural mbber may freeze or crystallize during transit or prolonged storage, particularly at subzero temperatures. The mbber then becomes hard, inelastic, and usually much paler in color. This phenomenon is reversible and must be differentiated from storage hardening. The rate of crystallization is temperature-dependent and is most rapid at —26° C. Once at this temperature, natural mbber attains its maximum crystallinity within hours, and this maximum is no more than 30% of the total mbber. [Pg.268]

Vanillin, being an aldehyde, is able to form acetals and hemiacetals. Therefore, in flavor formulations using high concentrations of vanillin in conjunction with carriers such as propylene glycol, a glc analysis often shows a reduced vanillin peak after storage of the compounded flavor, and the presence of new peaks indicating acetal formation. Addition of about 0.5% of water to the formula reverses the reaction, ie, there is a reduction of acetal, and the reappearance of vanillin peaks. [Pg.399]

Chemical Reactions of Dyes. Decolorization is important for cyanines used ia imaging materials. Understanding decolorization provides clues to dye reactions that may cause degradation of imaging materials duting preparation and storage. For many dyes, protonation of the methine chain occurs readily and reversibly (64). Highly basic carbocyanine dyes like those from benzimidazole (eg, 36) protonate so readily that this provides a practical decolorization method. [Pg.399]

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See also in sourсe #XX -- [ Pg.197 , Pg.205 ]



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Hydrogen reversible storage

Optical data storage reversible

Reversible charge-storage capacity

Reversible optical storage

Reversible storage systems

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