posted on 2023-03-31, 13:33authored byGitanjali Swain, Bharathkumar H. Javaregowda, Neha V. Dambhare, Kothandam Krishnamoorthy
Conjugated materials are synthesized by C–C bond
formation
reactions. Trimethyltin and boronic acid are two widely used structure-directing
moieties. While using the ethynyl moiety as a part of the monomer,
additional structure-directing moieties are not needed. However, ethynylene
will be part of the conjugated material. Often, the polymers with
an ethynylene moiety negatively impact the polymers’ properties.
However, the ethynylene moiety could minimize the dihedral angle if
the monomer has steric functionalities. For example, BODIPY is an
attractive monomer due to its high molar extinction coefficient, partial
quinoidal character, and high quantum yield. However, materials based
on BODIPY exhibited poor charge carrier mobility due to steric hindrance
generated by four methyl groups. Herein, we copolymerize BODIPY with
ethynylene comprising i-indigo and thieno-i-indigo. The copolymer with thieno-i-indigo
showed increased molecular weight and significantly reduced band gap
compared to the copolymer with i-indigo. The copolymer
with i-indigo showed immeasurably low hole transport
mobility. On the other hand, the copolymer with thieno-i-indigo exhibited 0.003 cm2V–1 s–1. These measurements were
made using field effect transistors. We also measured the charge carrier
mobility using the space charge-limited current method. Both copolymers
exhibited a mobility of 10–3 cm2 V–1 s–1.