Synthesis, electrolyte properties and solar cell performance of hyperbranched poly(aryl-ether-urea)s

ABSTRACT

Hyperbranched poly(aryl-ether-urea)s with phenyl, N,N-dimethylamino ethyl and polyethylene oxide end-groups linked through urethane group – HBPEU-1, HBPEU-2 and HBPEU-3 respectively – were synthesized from an AB₂-type blocked isocyanate monomer and characterized by FT-IR, ¹H-NMR, SEC-MALLS, TGA and DSC techniques. The molecular weight of the polymers were found to be ranged from 4.9 × 10³ − 1.96 × 10⁴ g/mol. The TGA results showed that the polymers decompose between 175°C – 220°C. In the DSC curves, HBPEU-1 and HBPEU-3 showed T_g at 160°C and 53°C respectively, whereas HBPEU-2 did not showed clear T_g. All the three polymers were converted into polymer electrolytes by doping with LiI/I₂. The doped polymers showed remarkably high ionic conductivity, up to 222 – 277 times compared to the un-doped polymers and the highest conductivity was observed with doped HBPEU-2. The TiO₂ based dye-sensitized solar cells (DSSCs) were fabricated using the doped polymer electrolytes and their performance was tested; HBPEU-2 showed good performance by yielding energy conversion efficiency (η) of 4.5%.

KEYWORDS:

• hyperbranched polymers
• poly(aryl-ether-urea)s
• blocked isocyanate monomer
• polymer electrolyte
• impedance study
• DSSC
• photovoltaic applications

Acknowledgment

The authors (S.S and A.S.N) gratefully acknowledge CSIR, India, for financial support under a Scheme No.02(0100)/12/EMR-II. Dt.31.10.2012.