Deng, Construction of Molecularly Imprinted Polymer Microspheres by Using Helical Substituted
Polyacetylene and Application in Enantio-Differentiating Release and Adsorption.
These coatings are made up some basic polymers those could be polyaniline, polypyrrole and
polyacetylene. The applications of conductive polymer coatings include sensors, optical & electronic materials, actuators, bio-sensors, super-capacitors, bio-implants and corrosion protection for electrical energy storage.
Intrinsically conductive polymers have been continuously studied since the discovery of the conductivity of
polyacetylene in 1977 [1].
Dyatmyko, "Use of On-flow LC/1H NMR for the study of an antioxidant fraction from Orophea enneandra and isolation of a
polyacetylene, lignans, and a tocopherol derivative," Journal of Natural Products, vol.
wallichina in this study, a diacetylene glucoside, bhutkesoside A (1); a
polyacetylene derivative, falcarindiol (2); and a phenylpropanoid derivative, ferulic acid (3) were also isolated from the roots of same plant, which were reported in a previous paper [7].
In the late 70s, Heeger, Shirakawa, and MacDiarmid discovered that
Polyacetylene can transport electrical charges along its chains.
Largely, two approaches can be used to overcome this issue: 1) development of conductive filler containing systems based on highly deformable elastomers, allowing incorporation of comparatively great amounts of conductive fillers without considerable loss in deformability; and 2) development of formulations of compositions on the basis of intrinsically conducting polymers such as polythiophene, polyaniline, polypyrole,
polyacetylene and its derivatives.
Yao, "Flavonoids and a new
polyacetylene from Bidens parviflora Willd," Molecules, vol.