Transfer Relevance to Device Performance

2 Barford, W. (2005) Electronic and Optical Properties of Conjugated Polymers, Clarendon Press, Oxford. 

53 May, V. and Kiihn, O. (2004) Charge and Eneigy Transfer Dynamics in Molecular Systems, 1st edn, Wdey-VCH Verlag GmbH, Wemheim. 

87 Kniepert,)., Schubert M., Blakesley, J.C., and Neher, D. (2011) / Phys. Chem. Lett., 

Percolation Theory and Its Application in Electrically Conducting Materials 

In this chapter, the emphasis will be then on trying to understand the a x) dependence as observed in those composites in view of the recent extensions of classical lattice percolation theory to systems in the continuum. The basic characteristic of o x) that is common to all composite materials is a sharp rise in cr as x increases. This rise is followed by a monotonic moderate rise in the o x) dependence. In order to get the desired understanding of this behavior, the first part of this chapter will provide the background to percolation theory [1-4] and the tools required for the discussion of the cr(x) dependence, while the other part will be devoted to a comparison of the experimental observations of ours and others to the expectations that follow percolation theory. In particular, we will try to understand the multiple sharp 

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