Chemical order

Despite these simplifications, a typical or F NMR spectrum will nomially show many couplings. Figure BTl 1.9 is the NMR spectrum of propan-1-ol in a dilute solution where the exchange of OH hydrogens between molecules is slow. The underlymg frequency scale is included with the spectrum, in order to emphasize how the couplings are quantified. Conveniently, the shift order matches the chemical order of die atoms. The resonance frequencies of each of the 18 resolved peaks can be quantitatively explained by the four... 

Figure Bl.11.9. Integrated 250 MHz H NMR spectrum of dilute propan-1-ol in dinrethylsulfoxide solvent. Here, the shift order parallels the chemical order. Arr expansion of the H2-I nrultiplet is included, as is the implicit frequency scale, also referenced here to TMS = 0.

FRG (2001) Notification of a draft Order amending Chemicals Orders (organotin compounds) pursuant to Article 95(5) of the EC Treaty. Cemmunicatien frem the Government of the Federal Republic ef Germany te the Eurepean Commission, 9 January. 

Schmid M, Stadler H, Varga P. 1993. Direct observation of surface chemical order by scanning tunnehng microscopy. Phys Rev Lett 70 1441. 

Temkin was the first to derive the ideal solution model for an ionic solution consisting of more than one sub-lattice [13]. An ionic solution, molten or solid, is considered as completely ionized and to consist of charged atoms anions and cations. These anions and cations are distributed on separate sub-lattices. There are strong Coulombic interactions between the ions, and in the solid state the positively charged cations are surrounded by negatively charged anions and vice versa. In the Temkin model, the local chemical order present in the solid state is assumed to be present also in the molten state, and an ionic liquid is considered using a quasi-lattice approach. If the different anions and the different cations have similar physical properties, it is assumed that the cations mix randomly at the cation sub-lattice and the anions randomly at the anion sub-lattice. 

Table 2.2. Chemical order of the elements, according to Pettifor (1986).

Many of the studies with amides have included evaluation of ligand-field parameters if appropriate. The differences between different amides are quite small. For [NiL6]2+, Dq varies from 749 cm-1 when L is A-methylcaprolactam to 850 cm1 when L is DMF.44,45 However, the spectro-chemical order in complexes [U02L5]2+ is DMA < NMA as DMF < NMF65 compared with NMA < DMA 4 NMF < DMF for Ni2+ neither series follows the order of donor strengths reflected by the Gutmann donor numbers, which rank DMA marginally above DMF as a donor in terms of the enthalpies of adduct formation with SbCls-66... 

The second method of characterizing the chemical order of a reaction is by the concentration of reactive groups, [R]. This method is most applicable to reactive oligomers that polymerize into both linear and three-dimensional polymers. Let the initial concentration be [R]o and the final one be [R]oo. Then the chemical degree of conversion Pch is... 

Flence, the islands are behaving like particles. The increase in coercivity for each thickness due to temperature is attributed to a higher degree of chemical ordering. 

Figure 24 shows hysteresis loops of (FePt 2 nm/Ag 16 nm)x5 pseudomultilayers deposited at different temperatures, measured perpendicular to the film plane, and those of (FePt 2 nm/ Ag t nm, t = 1, 2, 4, 8)x5 deposited at 400 °C. The coercivity of (FePt 2 nm/Ag 16 nm) x5 films is increased with increasing deposition temperature. At 300 °C the coercivity has reached the value of 1.5 kOe, which is consistent with the onset of chemical ordering as shown by the XRD data. Also, the coercivity of (FePt 2 nm/ Ag t nm, t =... 

Table 2 Magnetic properties and theoretical minimal grain diameters of various perpendicular media candidates including the most advanced chemically ordered Co3Pt [36] and (CoCr)3Pt-alloys. The minimal physical grain diameter is estimated using maximum demagnetization 4jzMs (Nd = 1) and the four different grain geometries (a-d) explained below the table. Definitions HK = 2K,/MS anisotropy field Ms and Kt are measured in emu/cm3 and 107 erg/cm3 respectively.

Finally, we point to some recent discussion in the literature pertaining to a size dependence of the thermodynamic L 0 critical temperature [72, 73], which will impede the chemical ordering process for the smallest particle sizes. 

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