Stoichiometry substitutions

According to the mass balance Equation 3.28, the expression in parentheses is Mi. Further, the charge Z, on a species component is the same as the charge z, on the corresponding basis species, since components and species share the same stoichiometry. Substituting, the electroneutrality condition becomes,... 

The formed hydrides in these binary Laves phases are too stable for easy hydrogen desorption, which is a prerequisite for hydrogen storage (Ivey and Northwood, 1986 b). The hydride stability can be reduced and adjusted to practical hydrogen storage conditions by deviations from stoichiometry, substitution of the B element primarily by Fe, Co, Ni, Cu, Mn, or Cr, or substitution of the A element primarily by Ti, or any combination of these alloying possibilities. 

A-4-Thiazoline-2-thiones can be obtained directly from 2-thiazolyldiazonium tetrafiuoroborate by reaction with an excess of thiourea (9). When 1 1 stoichiometry is used, the adduct (7) can be isolated. Further treatment of 7 with an excess of thiourea leads to the 2-mercaptolhiazole (3) 9). 2-Iminothiazoles 81 when heated at 150°C with CSt sive N-substituted A-4-thiazofine-2-thiones (9) (Scheme 31... 

Barium titanate is usually produced by the soHd-state reaction of barium carbonate and titanium dioxide. Dielectric and pie2oelectric properties of BaTiO can be affected by stoichiometry, micro stmcture, and additive ions that can enter into soHd solution. In the perovskite lattice, substitutions of Pb ", Sr ", Ca ", and Cd " can be made for part of the barium ions, maintaining the ferroelectric characteristics. Similarly, the TP" ion can partially be replaced with Sn +, Zr +, Ce +, and Th +. The possibihties for forming solution alloys in all these stmctures offer a range of compositions, which present a... 

One of the most important parameters that defines the structure and stability of inorganic crystals is their stoichiometry - the quantitative relationship between the anions and the cations [134]. Oxygen and fluorine ions, O2 and F, have very similar ionic radii of 1.36 and 1.33 A, respectively. The steric similarity enables isomorphic substitution of oxygen and fluorine ions in the anionic sub-lattice as well as the combination of complex fluoride, oxyfluoride and some oxide compounds in the same system. On the other hand, tantalum or niobium, which are the central atoms in the fluoride and oxyfluoride complexes, have identical ionic radii equal to 0.66 A. Several other cations of transition metals are also sterically similar or even identical to tantalum and niobium, which allows for certain isomorphic substitutions in the cation sublattice. 

For all the olefins studied, alkyl-, fluoro-, or chloro-substituted, three binary, mononuclear species were observed. It now seems that it is a general property of Ni and Pd atom-olefin reactions at cryogenic temperatures to form complexes that have a maximum coordination of three olefin molecules per metal atom, regardless of the electronic or steric attributes of the substituent(s). As intimated previously, the absence of higher stoichiometry species, even for unsubstituted ethylene, is, most probably, the result of steric interactions (54). 

First reported by Fredenhagen in 1926 F3, F4), the graphite-alkali-metal compounds possess a relative simplicity with respect to other intercalation compounds. To the physicist, their uncomplicated structure and well defined stoichiometry permit reasonable band-structure calculations to be made S2,12) to the chemist, their identity as solid, "infinite radical-anions frequently allows their useful chemical substitution for such homogeneous, molecular-basis reductants as alkali metal-amines and aromatic radical anions N2, B5). 

One way of treating a special case is to carry out a separate derivation. For the current problem, perfect initial stoichiometry means b = a throughout the reaction. Substituting this into the ODE for component A gives... 

Recall that for a 2 1 polyamide DNA complex a subsef of pairing mles Im//9 or Py//9 pairs can substitute, in certain cases, for Im/Py or Py/Py pairs, respectively [36]. The incorporation of y9-alanine allows a broader set of sequences to be targeted with high affinity. However, the extra flexibility of polyamides containing internal y9-alanines allows both 2 1 and 1 1 hgand DNA stoichiometries in the mi-... 

Platinum(II) isocyanide complexes of the general formulas [PtL4], [PtL3X], and PtL2X2 and substituted derivatives thereof (L = RNC, X = halogen, H, R, etc.), have been studied recently and will be the main subjects of discussion. It may be observed that much work on complexes of the first and third molecular stoichiometries had been reported previously. 

It has been established by substitution of for Mg that, prior to phosphorylation, the divalent cation binds at a cytosolic site with a stoichiometry of about 1 mol per phosphorylation site [124,125]. These experiments also demonstrated that the phosphorylation rate is sensitive to the nature of the divalent cation bound. With Mg bound, the phosphorylation rate is about 20 times faster than with Ca bound. The divalent cation dissociates after dephosphorylation, suggesting that it is tightly bound to the phosphoenzyme during the reaction cycle. It was also demonstrated that the type of divalent cation that occupies the divalent cation site required for phosphorylation is important for the step 2K E2-P to 2K E2 P to 2K E2 [124,125]. With Mg bound, the 2K E2-P conformer is -sensitive, whereas with Ca bound, the intermediate is -insensitive. 

Primarily using isolated plasma membrane vesicles as an experimental preparation, the functional properties of Na /H exchangers have been elucidated. The important kinetic properties include (1) stoichiometry (one-for-one) (2) reversibility (3) substrate specificity (monovalent cations Na, H, Li, NH4, but not K, Rb, Cs, choline) (4) modes of operation (Na -for-H, Na -for-Na Li " -for-Na, Na -for-NH4 ) (5) existence of an internal site for allosteric activation by (6) reversible inhibition by amiloride (Af-amidino-5-amino-6-chloropyr-azine carboxamide) and its 5-amino-substituted analogs and (7) competitive nature... 

---