Fabrication of a stable p–n junction in a polyacetylene film by ion implantation

“…Increases in hardness, strength and wear resistance [5][6][7], electrical conductivity [8][9][10], density [9], chain length [6][7][8], crystallinity [7][8][9] and solubility [5][6][7][8][9], as well as improvements in optical transmission [7][8][9][10] properties of the polymers have been reported. Many studies of ion irradiation with low energy (<1 MeV) on intrinsically electron-conducting polymers have been undertaken [11][12][13][14][15][16][17][18][19], but it would appear that our studies [20][21][22] were the first to show that SHI irradiation with high energy (>80 MeV) enhances the electrochemical stability of polypyrrole and polyaniline electrodes. In the present investigation, all-polymer redox supercapacitors are fabricated with LiClO 4 -and LiCF 3 SO 3 -doped polypyrrole electrodes that are either unirradiated or 160 MeV Ni 12+ ion irradiated.…”

Enhanced electrochemical stability of all-polymer redox supercapacitors with modified polypyrrole electrodes

“…Increases in hardness, strength and wear resistance [5][6][7], electrical conductivity [8][9][10], density [9], chain length [6][7][8], crystallinity [7][8][9] and solubility [5][6][7][8][9], as well as improvements in optical transmission [7][8][9][10] properties of the polymers have been reported. Many studies of ion irradiation with low energy (<1 MeV) on intrinsically electron-conducting polymers have been undertaken [11][12][13][14][15][16][17][18][19], but it would appear that our studies [20][21][22] were the first to show that SHI irradiation with high energy (>80 MeV) enhances the electrochemical stability of polypyrrole and polyaniline electrodes. In the present investigation, all-polymer redox supercapacitors are fabricated with LiClO 4 -and LiCF 3 SO 3 -doped polypyrrole electrodes that are either unirradiated or 160 MeV Ni 12+ ion irradiated.…”

Enhanced electrochemical stability of all-polymer redox supercapacitors with modified polypyrrole electrodes

“…[271 The semiconducting properties of undoped conjugated polymers such as polyacetylene and polythiophene have been used in various devices, such as Schottky junctions,[291 homo-and heterojunctions, [29] organic-inorganic junctions,[301 and field-effect transistors. The new concept of molecular semiconductors opens up a new field, both theoretically and with regard to applications.…”

Functionalized Conducting Polymers—Towards Intelligent Materials

“…The new concept of molecular semiconductors opens up a new field, both theoretically and with regard to applications. [271 The semiconducting properties of undoped conjugated polymers such as polyacetylene and polythiophene have been used in various devices, such as Schottky junctions,[291 homo-and heterojunctions, [29] organic-inorganic junctions,[301 and field-effect transistors. [311 Although the results are promising, it has been acknowledged in all these investigations that the devices suffer from the very poor semiconducting properties of these conjugated polymers.…”

Functionalized Conducting Polymers—Towards Intelligent Materials