home.social

#pedot — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #pedot, aggregated by home.social.

  1. Okay, so, we did a thing. Writing a post a few weeks later as the manuscript is up in its properly styled electronic form. Here is a new #article on #electrochemical #copolymerization of #hydroquinone and #PEDOT, which is essentially its title. Apart from checking whether it's actually a #copolymer (rather than a composite), we adjusted synthesis parameters, studied charge transfer a bit, and threw in a little something regarding probable use as an #energy storing #ElectrodeMaterial.
    There are also bits and pieces of other methods relevant to our ongoing projects, but the most curious thing for me personally (and the one that led me to near-exhaustion a few times when I thought that a fluke is an “aha!” moment) is the possibility of mixing two relatively simple compounds, bashing them with pulsed potential repeatedly and getting an outcome of a nice capacitive/conducting PEDOT response, on top of which we can have however much we want (well, up to about two-thirds) redox response of hydroquinone.
    Anyway, we’ve been cooking for 2 years, because each time something happened, it did the result more interesting, until we were finally—well, not satisfied exactly—but sure that it would be compelling as a published article.
    The link is here:
    doi.org/10.1039/D4TA07307J

  2. Okay, so, we did a thing. Writing a post a few weeks later as the manuscript is up in its properly styled electronic form. Here is a new #article on #electrochemical #copolymerization of #hydroquinone and #PEDOT, which is essentially its title. Apart from checking whether it's actually a #copolymer (rather than a composite), we adjusted synthesis parameters, studied charge transfer a bit, and threw in a little something regarding probable use as an #energy storing #ElectrodeMaterial.
    There are also bits and pieces of other methods relevant to our ongoing projects, but the most curious thing for me personally (and the one that led me to near-exhaustion a few times when I thought that a fluke is an “aha!” moment) is the possibility of mixing two relatively simple compounds, bashing them with pulsed potential repeatedly and getting an outcome of a nice capacitive/conducting PEDOT response, on top of which we can have however much we want (well, up to about two-thirds) redox response of hydroquinone.
    Anyway, we’ve been cooking for 2 years, because each time something happened, it did the result more interesting, until we were finally—well, not satisfied exactly—but sure that it would be compelling as a published article.
    The link is here:
    doi.org/10.1039/D4TA07307J

  3. Okay, so, we did a thing. Writing a post a few weeks later as the manuscript is up in its properly styled electronic form. Here is a new #article on #electrochemical #copolymerization of #hydroquinone and #PEDOT, which is essentially its title. Apart from checking whether it's actually a #copolymer (rather than a composite), we adjusted synthesis parameters, studied charge transfer a bit, and threw in a little something regarding probable use as an #energy storing #ElectrodeMaterial.
    There are also bits and pieces of other methods relevant to our ongoing projects, but the most curious thing for me personally (and the one that led me to near-exhaustion a few times when I thought that a fluke is an “aha!” moment) is the possibility of mixing two relatively simple compounds, bashing them with pulsed potential repeatedly and getting an outcome of a nice capacitive/conducting PEDOT response, on top of which we can have however much we want (well, up to about two-thirds) redox response of hydroquinone.
    Anyway, we’ve been cooking for 2 years, because each time something happened, it did the result more interesting, until we were finally—well, not satisfied exactly—but sure that it would be compelling as a published article.
    The link is here:
    doi.org/10.1039/D4TA07307J

  4. Okay, so, we did a thing. Writing a post a few weeks later as the manuscript is up in its properly styled electronic form. Here is a new #article on #electrochemical #copolymerization of #hydroquinone and #PEDOT, which is essentially its title. Apart from checking whether it's actually a #copolymer (rather than a composite), we adjusted synthesis parameters, studied charge transfer a bit, and threw in a little something regarding probable use as an #energy storing #ElectrodeMaterial.
    There are also bits and pieces of other methods relevant to our ongoing projects, but the most curious thing for me personally (and the one that led me to near-exhaustion a few times when I thought that a fluke is an “aha!” moment) is the possibility of mixing two relatively simple compounds, bashing them with pulsed potential repeatedly and getting an outcome of a nice capacitive/conducting PEDOT response, on top of which we can have however much we want (well, up to about two-thirds) redox response of hydroquinone.
    Anyway, we’ve been cooking for 2 years, because each time something happened, it did the result more interesting, until we were finally—well, not satisfied exactly—but sure that it would be compelling as a published article.
    The link is here:
    doi.org/10.1039/D4TA07307J

  5. Okay, so, we did a thing. Writing a post a few weeks later as the manuscript is up in its properly styled electronic form. Here is a new #article on #electrochemical #copolymerization of #hydroquinone and #PEDOT, which is essentially its title. Apart from checking whether it's actually a #copolymer (rather than a composite), we adjusted synthesis parameters, studied charge transfer a bit, and threw in a little something regarding probable use as an #energy storing #ElectrodeMaterial.
    There are also bits and pieces of other methods relevant to our ongoing projects, but the most curious thing for me personally (and the one that led me to near-exhaustion a few times when I thought that a fluke is an “aha!” moment) is the possibility of mixing two relatively simple compounds, bashing them with pulsed potential repeatedly and getting an outcome of a nice capacitive/conducting PEDOT response, on top of which we can have however much we want (well, up to about two-thirds) redox response of hydroquinone.
    Anyway, we’ve been cooking for 2 years, because each time something happened, it did the result more interesting, until we were finally—well, not satisfied exactly—but sure that it would be compelling as a published article.
    The link is here:
    doi.org/10.1039/D4TA07307J

  6. Ymmärrän, että irtokoirien ei kuulu raadella poroja. Toiselta puolen — siksi että tuhat vuotta sitten jotain, niin paliskuntien ei tarvitse piitata vuodesta 2025, ja porot voidaan dumpata kairaan. Ja yhteiskunnan pitää maksaa, ettei poroisännät riko lakia.

    Paskamaisintahan tässä on se, että en usko sekuntiakaan paliskuntien vahinkoilmoituksiin. Aikanaan, ennen kuin valtio alkoi maksamaan ennakolta kotkista suojelurahaa laittoman metsästyksen estämiseksi, Suomessa ei ollut kuin kourallinen susia — se suomalaisten poikkeuksellinen luontosuhde, joka johtaa aina sukupuuttoon. Silloin susien tappamia poroja ilmoitettiin niin paljon, että oli sula mahdottomuus, että me olisivat niin monta tappaneet.

    Mutta helppo raha on aina helppoa rahaa.

    #porot #lappi #pedot #koirat

  7. #Forscher der #UCLA haben einen #Kunststoff entwickelt, der als leistungsfähiger #Stromspeicher dienen könnte.

    telepolis.de/features/Stromspe

    Dank vertikaler #Nanofasern aus #PEDOT erreicht das Material eine 100-mal höhere #Leitfähigkeit und eine viermal größere Oberfläche als herkömmliche Varianten. #Superkondensatoren mit diesem Material könnten Energie extrem schnell speichern und abgeben – ideal für #Elektrofahrzeuge oder andere Anwendungen.

    #Energiespeicher #Technologie #Energiewende

  8. #Forscher der #UCLA haben einen #Kunststoff entwickelt, der als leistungsfähiger #Stromspeicher dienen könnte.

    telepolis.de/features/Stromspe

    Dank vertikaler #Nanofasern aus #PEDOT erreicht das Material eine 100-mal höhere #Leitfähigkeit und eine viermal größere Oberfläche als herkömmliche Varianten. #Superkondensatoren mit diesem Material könnten Energie extrem schnell speichern und abgeben – ideal für #Elektrofahrzeuge oder andere Anwendungen.

    #Energiespeicher #Technologie #Energiewende

  9. #Forscher der #UCLA haben einen #Kunststoff entwickelt, der als leistungsfähiger #Stromspeicher dienen könnte.

    telepolis.de/features/Stromspe

    Dank vertikaler #Nanofasern aus #PEDOT erreicht das Material eine 100-mal höhere #Leitfähigkeit und eine viermal größere Oberfläche als herkömmliche Varianten. #Superkondensatoren mit diesem Material könnten Energie extrem schnell speichern und abgeben – ideal für #Elektrofahrzeuge oder andere Anwendungen.

    #Energiespeicher #Technologie #Energiewende

  10. #Forscher der #UCLA haben einen #Kunststoff entwickelt, der als leistungsfähiger #Stromspeicher dienen könnte.

    telepolis.de/features/Stromspe

    Dank vertikaler #Nanofasern aus #PEDOT erreicht das Material eine 100-mal höhere #Leitfähigkeit und eine viermal größere Oberfläche als herkömmliche Varianten. #Superkondensatoren mit diesem Material könnten Energie extrem schnell speichern und abgeben – ideal für #Elektrofahrzeuge oder andere Anwendungen.

    #Energiespeicher #Technologie #Energiewende

  11. Modified Bricks Can House Energy, Too - What if building an emergency battery were as easy as painting conductive plastic onto bricks, sta... - hackaday.com/2020/08/16/modifi #chemistryhacks #supercapacitor #energystorage #mischacks #bricks #brick #pedot #rust