Cross amorphous solid

Hydroxymethylation of guaiacyl acetone (VII) yielded an amorphous solid, probably a self-condensation product after being methylolated in several positions. Veratyl acetone (VIII) gave a crystalline product in good yield which had no CO group. It can be assumed that the CO group was reduced by a crossed Cannizzaro reaction, and a dimeric product was formed, whose structure is not known yet. 

As discussed earlier, solid polymers can be distinguished into amorphous and the semicrystalline categories. Amorphous solid polymers are either in the glassy state, or - with chain cross linking - in the rubbery state. The usual model of the macromolecule in the amorphous state is the "random coil". Also in polymer melts the "random coil" is the usual model. The fact, however, that melts of semi-crystalline molecules, although very viscous, show rapid crystallisation when cooled, might be an indication that the conformation of a polymer molecule in such a melt is more nearly an irregularly folded molecule than it is a completely random coil. 

The properties of equations such as (3) and (4) which are not allowed by RMT are understood satisfactorily only in the relatively uninteresting linear case where, for example, rise and fall transients mirror each other as exponentials. When this frontier is crossed, the applied field strength is such that it is able to compete effectively with the intermolecular forces in liquids. This competition provides us with information about the nature of a molecular liquid which is otherwise unobtainable experimentally. This is probably also the case for internal fields, such as described by Onsager for liquids, for various kinds of intmial fields in int ated computer circuits, activated polymers, one-dimensional conductors, amorphous solids, and materials of interest to information tedmology. The chapters by Grosso and Pastori Parravidni in this volume describe with the CFP some important phenomena of the solid state of matter in a slightly different context. 

Washing is the countercurrent or cross-current cleaning performed by dissolving impurities in suspensions or crystal/amorphous solid slurries. The objective is to use a series of centrifuges to enhance the purity of the solids or to minimize the amount of wash liquid. 

Immobilization by chemical cross-linking without the addition of an inert carrier or matrix can provide the means to stabilize and reuse a biocatalyst without dilution of volumetric activity. A major deficiency in all of the aforementioned immobilization methods is that a substantial amount of a catalytically inert carrier or matrix is used to bind or contain the biocatalyst. In many cases, the amount of carrier is two orders of magnitude higher than the protein catalyst. Unfortunately, direct cross-linking of the enzyme, followed by precipitation of an amorphous solid often results in low activity and poor mechanically properties and so this method is not often used. Recently, however, cross-linked enzyme crystals have been reported to give many of the desirable properties of immobilized enzymes without the need for a support material (Sect. 6.4.1). 

One of the most important areas of application of the solid-state NMR technique is the investigation of the structures of cross-linked amorphous materials in cases where X-ray diffraction technqiues are not applicable. Polymeric resins are one such important class of materials. A lot of work has been done in this area by several investigators 36,37 38 since the beginning of the 80. Some solid-state NMR data of phenolic resins are presented in Fig. 10. Comparison with liquid state data for... 

Later we will describe both oxidation and reduction processes that are in agreement with the electrochemically stimulated conformational relaxation (ESCR) model presented at the end of the chapter. In a neutral state, most of the conducting polymers are an amorphous cross-linked network (Fig. 3). The linear chains between cross-linking points have strong van der Waals intrachain and interchain interactions, giving a compact solid [Fig. 14(a)]. By oxidation of the neutral chains, electrons are extracted from the chains. At the polymer/solution interface, positive radical cations (polarons) accumulate along the polymeric chains. The same density of counter-ions accumulates on the solution side. 

The work on carbon nitride solids is strongly related to research on diamondlike carbon (DLC) materials [5, 6]. DLC materials are thin film amorphous metastable carbon-based solids, pure or alloyed with hydrogen, which have properties similar to that of crystalline diamond (high hardness, low friction coefficient, high resistance to wear and chemical attack). This resemblance to diamond is due to the DLC structure, which is characterized by a high fraction of highly cross-linked sp -hybridized carbon atoms. To obtain this diamond-like structure... 

F. He, H. Xu, B. Yang, Y. Duan, L. Tian, K. Huang, Y. Ma, S. Liu, S. Feng, and J. Shen, Oligomeric phenylenevinylene with cross dipole arrangement and amorphous morphology enhanced solid-state luminescence efficiency and electroluminescence performance, Adv. Mater., 17 2710-2714 (2005). 

Because amorphous and crystalline solid-state forms contain nonequivalent spatial relationships at the molecular level, they often display differences in functional group vibrational modes that can be measured by IR spectroscopy. Total attenuated reflectance IR spectroscopy is utilized because it is non-destructive and can be used to directly measure actual tablet and capsule samples. Similarly, solid-state NMR spectroscopy is another non-destructive direct analytical method that can detect and measure differences in nuclear resonance frequencies and relaxations, such as those displayed by amorphous and crystalline material. Cross-polarization... 

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