Spectroscopy and defect states in polyaniline

McCall, R. P.; Ginder, J. M.; Leng, J. M.; Ye, H. J.; Manohar, Sanjeev K.; Masters, James G.; Asturias, G.E.; MacDiarmid, A. G.; Epstein, Arthur J.

doi:10.1103/physrevb.41.5202

Cited by 256 publications

(133 citation statements)

References 34 publications

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“…In the case of EB phase, the experimental photoemission spectrum shows two transitions: 29,30 ͑a͒ A strong absorption centered at 2 eV and ͑b͒ an absorption band ͑the → * band gap͒ at 3.6 ͑solution͒ or 3.8 eV ͑film͒. Our PBEh calculations ͑see Fig.…”

Section: Band Structurementioning

confidence: 83%

A suitable model for emeraldine salt

Varela‐Álvarez

Sordo

2008

The Journal of Chemical Physics

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A new mechanism for the formation of doped polyaniline is presented. Besides providing suitable structural and spectroscopic parameters, the new mechanism allows for the rationalization of the experimentally observed equilibrium between polaron and bipolaron defects in emeraldine salt. The magnetic behavior and the “metallic island” model for conduction in doped polyaniline are also theoretically supported by the new proposal.

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Section: Band Structurementioning

confidence: 83%

A suitable model for emeraldine salt

Varela‐Álvarez

Sordo

2008

The Journal of Chemical Physics

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“…RT relaxation dominates the effective mass of coupled defects. Experimentally, very small infrared active vibration modes indicate a large polaron mass [11,12]. Our theory showed the origin of the large defect mass.…”

Section: Numerical Results and Discussionmentioning

confidence: 76%

Kinetic Mass of RT-BO Defect States in a Pernigraniline-Base Polymer

Liu

1999

phys. stat. sol. (b)

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“…This absorption is associated with a ring rotation polaron trapped adjacent to a quinoid ring. This trapped ring rotation polaron is readily observed in the photoexcitation spectra of emeraldine base [24,33]. Comparison of the magnitude of the photoinduced ir active vibrations and electronic absorption confirms the large mass of the photoexcited defects.…”

Section: 5mentioning

confidence: 68%

“…Photoexcitation of LEB films and powders with superbandgap light leads to new intragap absorptions centered at 0.7 eV and 2.9 eV [24,33]. This photoinduced absorption has been described in terms of formation of a ring rotation polaron [24][25][26]33.…”

Section: 5mentioning

confidence: 99%

Electronic Phenomena in Polyanilines

Epstein

MacDiarmid

1991

Frontiers of Polymer Research

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" 4-.-* "o t W*enar.Se. ovoclumng tite toll %C e.qqef uf~oms. seao" *mast" oat* sow. M )~~ :V;wUn..on Of 'AtOrmaw"n Wf COM"tt% regarcm" tft %~ Mummaq or on ote *WW't of t"- SPONSORING: MONITORING AGENCY NAME(S) AND ADIESS(ES D~higmtku Unimiled ABSTRACT (Maximum 200 words)Polyanilines have been known for over one hundred years. Recent studies of this chemically flexible polymer have demonstrated unusual chemical, electrical, and optical phenomena, both in insulating forms and conducting forms. Polyaniline has three stable insulating forms, leucoemeraldine base (LEB), emeraldine base (EB), and pernigraniline base (PNB). These three forms exhibit differing phenomena ranging from intramonomer luminescing excitons and ring rotation polarons in LEB, to nonluminescing charge transfer excitons and also ring rotational polarons in EB, to a degenerate ground state with bond order parameter solitons and ring order parameter polarons in PNB. The LEB form can be p-doped (oxidatively doped), the EB form can be protonic acid doped and the PNB form can be n-doped (reductively doped) to form conducting systems. Charge conduction studies of oriented films and fibers demonstrate that three-dimensional order between chains is critical for high conductivities. The ability to derivatize polyaniline at ring and nitrogen positions allows one to test concepts for the control of conductivity as well as improved processing. 92-

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Spectroscopy and defect states in polyaniline

Cited by 256 publications

References 34 publications

A suitable model for emeraldine salt

A suitable model for emeraldine salt

Kinetic Mass of RT-BO Defect States in a Pernigraniline-Base Polymer

Electronic Phenomena in Polyanilines

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