Thiazoloisoindigo-based ambipolar polymers for excellent balanced hole and electron mobility
By taking advantage of both the appropriate electron-withdrawing capability and perfect linear coplanar molecular structure of chalcogenophene-flanked thiazoisoindigo ( TzII ) and thiophene-flanked dipyrrolopyrrolidone ( DPP ), four polymers with similar conjugated backbones, namely P(T-TzII-T-DPP)-...
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Veröffentlicht in: | Materials chemistry frontiers 2022-11, Vol.6 (22), p.3369-3381 |
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Sprache: | eng |
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Zusammenfassung: | By taking advantage of both the appropriate electron-withdrawing capability and perfect linear coplanar molecular structure of chalcogenophene-flanked thiazoisoindigo (
TzII
) and thiophene-flanked dipyrrolopyrrolidone (
DPP
), four polymers with similar conjugated backbones, namely
P(T-TzII-T-DPP)-C12
,
P(T-TzII-T-DPP)-C20
,
P(Se-TzII-T-DPP)-C12
, and
P(Se-TzII-T-DPP)-C20
were designed and synthesized, where
T
and
Se
stand for thiophene and selenophene and
C12
and
C20
stand for the length of the alkyl sidechain on
DPP
, respectively. All four polymers exhibit ideal linear coplanar backbones, rigidity of extended π-electron systems and suitable HOMO/LUMO energy levels favouring balanced ambipolar charge transport with the average
μ
e
/μ
h
ratio ranging from 1.09 to 1.43. In particular, thin-film transistors made of a
P(T-TzII-T-DPP)-C12
co-polymer exhibit the highest average electron (
μ
e
) and hole (
μ
h
) mobility of 6.29 and 5.77 cm
2
V
−1
s
−1
, respectively, and a well-balanced
μ
e
/
μ
h
ratio of 1.09. We also demonstrate that the sidechain length on
DPP
has a drastic influence of the backbone orientation of the polymers, where the polymers with a shorter
C12
sidechain prefer to adopt an edge-on orientation while those with a
C20
sidechain prefer to adopt mixed edge-on and face-on orientations after thermal annealing. Overall, this study demonstrates a simple yet effective approach to achieve high and well-balanced electron/hole mobility in organic transistors by combining the
TzII
unit and the
DPP
unit.
The copolymerization of thiophene-flanked thiazoisoindigo (
TzII
) and thiophene-flanked dipyrrolopyrrolidone (
DPP
) leads to an ambipolar polymer with high and balanced charge carrier mobility (highest
e
: 7.63 and highest
μ
h
: 6.11 cm
2
V
−1
s
−1
, respectively). |
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ISSN: | 2052-1537 2052-1537 |
DOI: | 10.1039/d2qm00612j |