C-banding

All classes 1300-1050 causes shift to lower frequency than the normal ester. The C=C band is strong and is usually near 1630 cm k Usually two strong bands due to CO stretch-... 

This general behaviour is characteristic of type A, B and C bands and is further illustrated in Figure 6.34. This shows part of the infrared spectrum of fluorobenzene, a prolate asymmetric rotor. The bands at about 1156 cm, 1067 cm and 893 cm are type A, B and C bands, respectively. They show less resolved rotational stmcture than those of ethylene. The reason for this is that the molecule is much larger, resulting in far greater congestion of rotational transitions. Nevertheless, it is clear that observation of such rotational contours, and the consequent identification of the direction of the vibrational transition moment, is very useful in fhe assignmenf of vibrational modes. 

Figure 6.34 Part of the infrared spectmm of fluorobenzene showing typical type A, B and C bands...

The exoeyelie earbonyl group of isothiazol-3-ones absorbs in the region 1610-1660 em <7lJHC59l). 2-Methylisothiazol-3-one itself has the C=0 and C=C bands at 1660 and 1629 em respeetively, in CCI4 solution <64TL1477). The low earbonyl frequeney is due in part to eontributions from the resonanee form (20b). The earbonyl frequeney inereases in sulfoxides (1660-1730 em ) and 1,1-dioxides (1690-1740 em ) where sueh forms are not favourable. Sulfoxides (1060-1190 em ) and sulfones (1330-1360 and 1150-1190 em ) absorb in the regions expeeted (e.g. saeeharin, 1353 and 1162 em ), but resonanee forms related to (13) eause a reduetion of the frequeney of the asymmetrie SO2 vibration to near 1280 em (70CB3166). A similar situation arises in 3-amino-1,2-benzisothiazole 1-oxides. 

Since most organic compounds contain saturated alkane-like portions most organic compounds have these characteristic IR absorptions. The C-H and C—C bands are clearly visible in the three spectra shown in Figure 12.14. 

A substantial proportion of cross-linked material was obtained with 2 x 107 r, clearly indicating that ring participation, probably following scission43, is important. The infrared spectra of these polymers were not very informative, but definitely showed carbonyl and C=C bands, obviously coming from cleaved rings. 

Chromones 2a-c,g were found to show separated vC = 0 and vC = C bands at 1640 and 1620 cm l, respectively, whereas 1-thiochromones 3d-f had coalesced... 

Bonnelle, C. Band and Localized States in Metallic Thorium, Uranium and Plutonium, and in Some Compounds, Studied by X-ray Spectroscopy. Vol. 31, pp. 23-48. 

The ferrocenyldiphynylpropargyl cation, 77, has an intrinsic delocalization nature exhibiting a valence tautomerization band at 856 nm, and its nucleophilic trapping reactions give rise to the formation of ferrocenyldiphyenylallenes (173). The bis(acetylide) mixed-valence complexes of ferrocene and the Ru complex moiety, 78, also behave as a fulvene-cumulene structure, 79, showing a u(M=C = C—C) band at 1985 cm-1 (174). Related alleylidene and cumulenylidene complexes of transition metals have been reviewed by Bruce (175). 

Figure 3 shows IR spectra taken during the step switch from steady state He/C3H6 to He/02/C3H6. The exposure of the catalyst to propylene prior to the 02 step switch produced the bands similar to those in Figure 1. Introduction of 02 into the reaction by switching from He/C3H6 to He/Oycyy flow led to immediate formation of a C02 band followed by the PO C-O-C band at 977 cm". The bands at 977, 1390, and 1640 cm"1 are consistent with those in adsorbed PO which is shown as the upper-most spectrum in Figure 3.

The material balance is consistent with the results obtained by OSA (S2+S4 in g/100 g). For oil A, the coke zone is very narrow and the coke content is very low (Table III). On the contrary, for all the other oils, the coke content reaches higher values such as 4.3 g/ 100 g (oil B), 2.3 g/ioo g (oil C), 2.5 g/ioo g (oil D), 2.4/100 g (oil E). These organic residues have been studied by infrared spectroscopy and elemental analysis to compare their compositions. The areas of the bands characteristic of C-H bands (3000-2720 cm-1), C=C bands (1820-1500 cm j have been measured. Examples of results are given in Fig. 4 and 5 for oils A and B. An increase of the temperature in the porous medium induces a decrease in the atomic H/C ratio, which is always lower than 1.1, whatever the oil (Table III). Similar values have been obtained in pyrolysis studies (4) Simultaneously to the H/C ratio decrease, the bands characteristics of CH and CH- groups progressively disappear. The absorbance of the aromatic C-n bands also decreases. This reflects the transformation by pyrolysis of the heavy residue into an aromatic product which becomes more and more condensed. Depending on the oxygen consumption at the combustion front, the atomic 0/C ratio may be comprised between 0.1 and 0.3 ... 

Bei Polyincarbonylverbindungen kann die Intensitat der C=C-Bande AufschluB iiber die Lage der C=C-Bindungen im chromophoren System... 

The formation of appreciable quantities (up to "oQ0% based on the initial additive concentration) of the grafted substituted hydroxylamine O W0PP as from reaction 7) in photo-degrading PPH can be demonstrated by indirect methods (10, 11). For example after the rapid loss of the initial concentration of a piperidine or its nitroxide in PPH film, heating the film immersed in isooctane for several hours at 100 C in the presence of oxygen causes the re-appearance of nitroxide in appreciable quantities as measured by e.s.r. spectroscopy (ll). This nitroxide most likely results from a reaction analogous to reaction 8 (l2). In addition we have observed the ) N-0-C band (at 1306 cm 1) in the infrared spectrum of irradiated, nitroxide-containing PP films by Fourier Transform IR spectroscopy (ll)., ... 

Firm assignments for these C=C bands require more detailed experiments but a tentative assignment can be made. The bands at 1550-1570 cm-1 are probably due to a ir-allyl species the shift from the double-bond region for butenes is about 100 cm-1 compared to the shift of 107 cm-1 observed for the 7r-allyl formed from propylene, but the butene is less firmly held. With propylene we observed a x-complex in which the shift in C=C stretch was about 30 cm-1. We believe the band at 1610 cm 1... 

---