Conjugated Conducting PolymersHelmut G. Kiess, Dionys Baeriswyl |
From inside the book
Results 1-3 of 46
Page 249
... spectrum versus / is shown in Fig . 5.17 for various functional forms of p ;. It is again clear that the width I can only be inferred from the ESR spectrum if the precise shape of Pj is known . The reason for this is simple . In the ESR ...
... spectrum versus / is shown in Fig . 5.17 for various functional forms of p ;. It is again clear that the width I can only be inferred from the ESR spectrum if the precise shape of Pj is known . The reason for this is simple . In the ESR ...
Page 250
... spectrum based on the proposed spin - density distribution is shown as a dashed line . The peak in the middle of the spectrum can be explained by distant hyperfine interactions due to neighbouring chains M. Л لم 20 25 30 T 5 10 15 20 25 ...
... spectrum based on the proposed spin - density distribution is shown as a dashed line . The peak in the middle of the spectrum can be explained by distant hyperfine interactions due to neighbouring chains M. Л لم 20 25 30 T 5 10 15 20 25 ...
Page 284
... spectrum of the diradical series is shown in Fig . 5.38 [ 5.257a ] . Note that a triplet ESR spectrum consists in general of a pair of lines which appear symmetrical about the Larmor frequency ( or field ) and where the linesplitting ...
... spectrum of the diradical series is shown in Fig . 5.38 [ 5.257a ] . Note that a triplet ESR spectrum consists in general of a pair of lines which appear symmetrical about the Larmor frequency ( or field ) and where the linesplitting ...
Other editions - View all
Common terms and phrases
A.J. Heeger atoms Baeriswyl band gap behaviour bipolarons bond alternation bond lengths calculations chain charge carriers charged solitons Chem chemical shift cis-(CH conducting polymers conjugated polymers correlation Coulomb interaction coupling Cryst D.K. Campbell defects dielectric function diffusion dimerization discussed dopant dopant concentration dopant molecules doping doping levels e-e interactions effects electron correlation electron spin electron-electron interactions electron-phonon ENDOR energy excitations exciton experimental frequency function Hamiltonian Hartree-Fock hopping Hubbard model Hückel hyperfine interactions inter-chain Kivelson lattice Lett linewidth magnetic metallic molecular neutral solitons nonlinear nonlinear optical nuclear observed obtained one-dimensional optical absorption optical gap parameters peak Peierls Peierls-Hubbard model phonon Phys polarons polyacetylene polyenes polypyrrole polythiophene properties proton quantum quasi-particles Raman resonance samples Sect shown in Fig spectra spectrum spin density structure symmetry Synth tensor theory trans trans-(CH trans-polyacetylene transition valence values Vardeny