Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

Graphite calculations

FIGURE 6.8 Band structure of graphite calculated by a mixed-basis pseudopotential method. The solid and dotted lines denote the O- and re-bands, respectively. The Fermi level is indicated by EF. (From Holzwarth, N.A.W., et al., Phys. Rev. B, 26, 5382, 1982. With permission.)... [Pg.230]

Figure 26 A comparison of the chemical diffusion coefficient of Li into graphite (calculated from PITT), the intensity of the major XRD peaks (e.g., 002, 004) during intercalation (vs. E), and a completed slow scan rate cycling voltammogram of a thin (10 pm) composite graphite electrode (KS-6 from Lonza) in EC-DMC/LiAsF6 solution. Note that as the electrode is thinner and the particles are more oriented (with their basal planes parallel to the current collector), the scan rate is slower and the CV peaks are sharper and better resolved. The various phases (intercalation stages) are indicated [87]. (With copyrights from Elsevier Science Ltd., 1998.)... Figure 26 A comparison of the chemical diffusion coefficient of Li into graphite (calculated from PITT), the intensity of the major XRD peaks (e.g., 002, 004) during intercalation (vs. E), and a completed slow scan rate cycling voltammogram of a thin (10 pm) composite graphite electrode (KS-6 from Lonza) in EC-DMC/LiAsF6 solution. Note that as the electrode is thinner and the particles are more oriented (with their basal planes parallel to the current collector), the scan rate is slower and the CV peaks are sharper and better resolved. The various phases (intercalation stages) are indicated [87]. (With copyrights from Elsevier Science Ltd., 1998.)...
Figure 7.10 Sublimation rate of graphite. Calculated Experimental. Source Adapted from Larsen HL, Graphite elements for high temperature resistor furnaces, Union Carbide Reprint Part 2, industriai... Figure 7.10 Sublimation rate of graphite. Calculated Experimental. Source Adapted from Larsen HL, Graphite elements for high temperature resistor furnaces, Union Carbide Reprint Part 2, industriai...
Assuming that coal is pure graphite, calculate A//° for this... [Pg.290]

In the same manner, the calculated P(x) are represented by values of x A of each peak in Table 1.2. Here P x) of graphite, calculated for a single crystal, is given with separate values for intralayer pair of atoms and interlayer ones [11]. [Pg.31]

Radial Distribution Functions P(,x) of the Carbon Films Listed in Table 1.1 as Compared to Graphite (Calculated in Richter et al., 1956 [11])... [Pg.33]

Number of the Coronene Ovalene Single Aromatic Layer Graphite (Calculated) ... [Pg.36]

Example 3.3. An infinite slab reactor of extrapolated width 20 cm is made up of a homogeneous mixture of and graphite. Calculate the ratio of carbon to atoms required for criticality. [Pg.95]

Corrin et al. [97] determined the adsorption isotherm of sodium dodecyl sulfate and potassium myristate on ash-free graphite. Calculations based on two extreme assumptions concerning the concentration of solvent in the surface region yielded speciFic surface values which differed by less than the experimental error. Hie isotherm of sodium dodecyl sulfate exhibited a discontinuity at the critical... [Pg.208]

See other pages where Graphite calculations is mentioned: [Pg.129]    [Pg.1135]    [Pg.543]    [Pg.522]    [Pg.233]    [Pg.392]    [Pg.661]    [Pg.303]    [Pg.79]    [Pg.1168]    [Pg.33]    [Pg.103]    [Pg.68]   
See also in sourсe #XX -- [ Pg.303 ]



SEARCH



Alkali graphite intercalation compounds calculations

Graphitic quantum chemical calculations

© 2024 chempedia.info