STUDIES ON CONJUGATED POLYMERS - PREPARATION, SPECTROSCOPIC, AND CHARGE-TRANSPORT PROPERTIES OF A NEW SOLUBLE POLYTHIOPHENE DERIVATIVE - POLY(3',4'-DIBUTYL-2,2' 5'2''-TERTHIOPHENE)/
Cg. Wang et al., STUDIES ON CONJUGATED POLYMERS - PREPARATION, SPECTROSCOPIC, AND CHARGE-TRANSPORT PROPERTIES OF A NEW SOLUBLE POLYTHIOPHENE DERIVATIVE - POLY(3',4'-DIBUTYL-2,2' 5'2''-TERTHIOPHENE)/, Chemistry of materials, 6(4), 1994, pp. 401-411
A new polythiophene derivative has been synthesized by chemical oxidat
ive polymerization of 3',4'-dibutyl-2,2':5'2''-terthiophene (DBTT). Th
e new polymer, poly(DBTT), contains two soluble fractions of differing
molecular weights both of which were characterized by X-ray-diffracti
on, IR, NMR, UV-vis-NIR, photoluminescence, and ESR spectroscopies, as
well as magnetic susceptibility and charge-transport measurements. Th
e molecular weights of both fractions were determined by gel permeatio
n chromatography. The high molecular weight fraction (M(w)BAR approxim
ately 9.1 X 10(3)) has one of the longest pi-conjugation lengths known
for poly(alkythiophenes) and high conductivity. The low molecular wei
ght fraction (M(w)BAR approximately 4.3 X 10(3)) has a shorter conjuga
tion length and 2 orders of magnitude lower conductivity (approximatel
y 10(-2) S/cm) at room temperature. Thermal gravimetric analysis studi
es show that the polymer is stable in nitrogen up to 380-degrees-C. Va
riable-temperature charge-transport data (conductivity and thermopower
) for both doped polymer fractions indicate p-type metallic behavior.
These results are compared to previously characterized polythiophenes.