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Photoluminescence characterization of polythiophene films incorporated with highly functional molecules such as metallophthalocyanine
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10.1116/1.4772946
/content/avs/journal/jvsta/31/1/10.1116/1.4772946
http://aip.metastore.ingenta.com/content/avs/journal/jvsta/31/1/10.1116/1.4772946

Figures

Image of FIG. 1.
FIG. 1.

(Color online) Photoluminescence absorption and emission spectra of PT films incorporated with Li2Pc by a diffusion method using acetonitrile or toluene as a solvent. (a) Absorption spectrum (solvent: acetonitrile). (b) Emission spectrum (excitation wave length: 440 nm; solvent: acetonitrile). (c) Absorption spectrum (solvent: toluene). (d) Emission spectrum (excitation wave length: 320 nm; solvent: toluene).

Image of FIG. 2.
FIG. 2.

(Color online) Photoluminescence absorption and emission spectra of PT films incorporated with MgPc by a diffusion method using acetonitrile or toluene as a solvent. (a) Absorption spectrum (solvent: acetonitrile). (b) Emission spectrum (excitation wave length: 420 nm; solvent: acetonitrile). (c) Absorption spectrum (solvent: toluene). (d) Emission spectrum (excitation wave length: 340 nm; solvent: toluene).

Image of FIG. 3.
FIG. 3.

(Color online) Photoluminescence absorption and emission spectra of PT films incorporated with CoPc by a diffusion method using acetonitrile or toluene as a solvent. (a) Absorption spectrum (solvent: acetonitrile). (b) Emission spectrum (excitation wave length: 400 nm; solvent: acetonitrile). (c) Absorption spectrum (solvent: toluene). (d) Emission spectrum (excitation wave length: 340 nm; solvent: toluene).

Image of FIG. 4.
FIG. 4.

(Color online) Photoluminescence absorption and emission spectra of PT films incorporated with FePc by a diffusion method using acetonitrile or toluene as a solvent. (a) and (c) Absorption spectrum (solvent: acetonitrile). (b) Emission spectrum (excitation wave length: 320 nm) (solvent: acetonitrile). (d)Emission spectrum (excitation wave length: 420 nm; solvent: acetonitrile). (e) Absorption spectrum (solvent: toluene). (f) Emission spectrum (excitation wave length: 320 nm; solvent: toluene).

Image of FIG. 5.
FIG. 5.

(Color online) Photoluminescence absorption and emission spectra of PT films incorporated with CuPc by a diffusion method using acetonitrile or toluene as a solvent. (a) Absorption spectrum (solvent: acetonitrile). (b) Emission spectrum (excitation wave length: 400 nm; solvent: acetonitrile). (c) Absorption spectrum (solvent: toluene). (d) Emission spectrum (excitation wave length: 340 nm; solvent: toluene).

Image of FIG. 6.
FIG. 6.

(Color online) TCSPC decay curves of acetonitrile-processed PT-PcM films. (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, and (e) CuPc-doped PT.

Image of FIG. 7.
FIG. 7.

(Color online) TCSPC decay curves of toluene-processed PT-PcM films. (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, and (e) CuPc-doped PT.

Image of FIG. 8.
FIG. 8.

(Color online) C 1s core-level spectra of acetonitrile-processed PT-PcM films. (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, (e) CuPc-doped PT and (f) as-grown PT.

Image of FIG. 9.
FIG. 9.

(Color online) C 1s core-level spectra of toluene-processed PT-PcM films. (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, (e) CuPc-doped PT and (f) as-grown PT.

Image of FIG. 10.
FIG. 10.

(Color online) N 1s core-level spectra of acetonitrile-processed PT-PcM films. (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, and (e) CuPc-doped PT.

Image of FIG. 11.
FIG. 11.

(Color online) N 1s core-level spectra of toluene-processed PT-PcM films. (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, and (e) CuPc-doped PT.

Image of FIG. 12.
FIG. 12.

(Color online) S 2p core-level spectra of acetonitrile-processed PT-PcM films: (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, (e) CuPc-doped PT, and (f) as-grown PT.

Image of FIG. 13.
FIG. 13.

(Color online) S 2p core-level spectra of toluene-processed PT-PcM films: (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, (e) CuPc-doped PT, and (f) as-grown PT.

Image of FIG. 14.
FIG. 14.

(Color online) Central metal core-level spectra of acetonitrile-processed PT-PcM films. (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, and (e) CuPc-doped PT.

Image of FIG. 15.
FIG. 15.

(Color online) Central metal core-level spectra of toluene-processed PT-PcM films. (a) Li2Pc-, (b) MgPc-, (c) CoPc-, (d) FePc-, and (e) CuPc-doped PT.

Tables

Generic image for table
TABLE I.

Photoluminescence emission peaks of PT films incorporated with PcMs by a diffusion method using acetonitrile as a solvent.

Generic image for table
TABLE II.

Photoluminescence emission peaks of PT films incorporated with PcMs by a diffusion method using toluene as a solvent.

Generic image for table
TABLE III.

PL lifetimes of photoluminescence emission of PT films incorporated with PcMs by a diffusion method using acetonitrile as a solvent measured by TCSPC.

Generic image for table
TABLE IV.

PL lifetimes of photoluminescence emission of PT films incorporated with PcMs by a diffusion method using toluene as a solvent measured by TCSPC.

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/content/avs/journal/jvsta/31/1/10.1116/1.4772946
2012-12-20
2014-04-20
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752b84549af89a08dbdd7fdb8b9568b5 journal.articlezxybnytfddd
Scitation: Photoluminescence characterization of polythiophene films incorporated with highly functional molecules such as metallophthalocyanine
http://aip.metastore.ingenta.com/content/avs/journal/jvsta/31/1/10.1116/1.4772946
10.1116/1.4772946
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