Conjugated polymers chemical structure

The rigid chemical structure of a conjugated polymer helps in the movement of electrons. That stiff structure, however, has limited its use. They are like uncooked spaghetti and do not easily entangle themselves. Polymer chain entanglements are necessary to achieve high viscosities, which are required to create fibers out of these polymers. 

This article, while not being intended to provide a full account of poly(arylene)s, emphasises the synthetic aspects. The synthesis of conjugated oligomers and polymers is, however, always part of an interdisciplinaiy approach with their active physical function being a key concern. In that sense the research being reviewed above concentrates on physical properties rather than playing with exotic chemical structures. 

Table 13-1. Chemical structures of representative luminescent conjugated polymers.

Figure 15-29. Chemical structures of the conjugated polymers used in the device and the device structure of the laminated solar cell. For the top half of the device, A1 or Ca was evaporated on glass substrates, and the acceptor material MEH-CN-PPV (and a small amount of POPT, usually 5%) was spin coaled. The half with the POPT (and a small amount of MEH-CN-PPV, usually 5%) was spin coaled on 1TO substrates and heated to 200"C under vacuum belore the device was laminated together by applying a light pressure.

In Figure 8-1 we show the chemical structure of m-LPPP. The increase in conjugation and the reduction of geometrical defects was the main motivation to incorporate a poly(/ -phenylene)(PPP) backbone into a ladder polymer structure [21]. Due to the side groups attached to the PPP main chain excellent solubility in nonpolar solvents is achieved. This is the prerequisite for producing polymer films of high optical quality. A detailed presentation of the synthesis, sample preparation,... 

The linear and nonlinear optical properties of one-dimensional conjugated polymers contain a wealth of information closely related to the structure and dynamics of the ir-electron distribution and to their interaction with the lattice distorsions. The existing values of the nonlinear susceptibilities indicate that these materials are strong candidates for nonlinear optical devices in different applications. However their time response may be limited by the diffusion time of intrinsic conjugation defects and the electron-phonon coupling. Since these defects arise from competition of resonant chemical structures the possible remedy is to control this competition without affecting the delocalization. The understanding of the polymerisation process is consequently essential. 

Scheme 1. Chemical Structures of some important linear n-conjugated polymers. Polyenes 1, poly-ynes 2, polyenynes 3, poly(p-phenylene)s (PPP) 4, polyphenylenevinylenes (PPV) 5, polyphenyleneethynylenes (PPE) 6.

Conjugated Polymer Surfaces and Interfaces Electronic and Chemical Structure of Interfaces for Polymer Light Emitting Devices W.R. Salaneck, S. Stafstrom, J.L. Bredas Cambridge University Press, 169 pp. ISBN 0521544106... 

The chemical structures of polymers will be changed by the evolution of small molecule products. The formation of C=C bonds in the polymer backbone by loss of H2 from hydrocarbon polymers, or HC1 from PVC, is well established and leads to colouration of the polymer, especially with increasing sequence lengths of conjugated unsaturation. Carboxylic acid groups are... 

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