RT @Besserchemistry: Check out the just published cover of our paper on the Al|X-PVMPT battery in EES designed by @JoRichers. @POLiS @Helmh…
RT @Besserchemistry: Check out the just published cover of our paper on the Al|X-PVMPT battery in EES designed by @JoRichers. @POLiS @Helmh…
Check out the just published cover of our paper on the Al|X-PVMPT battery in EES designed by @JoRichers. @POLiS @HelmholtzUlm; collaboration with @krossing @UniFreiburg https://t.co/fEQ7envKUm https://t.co/B1cU43X7uu
RT @RSC_Energy: Take a look at this #OpenAccess work by @Besserchemistry et al. in #EESJournal that reports a high capacity and rate perfor…
Take a look at this #OpenAccess work by @Besserchemistry et al. in #EESJournal that reports a high capacity and rate performance aluminium battery using a phenothiazine redox polymer cathode and chloroaluminate ionic liquid electrolyte. ⬇ https://t.co/xGe
On a high-capacity aluminium battery with a two-electron phenothiazine redox polymer as a positive electrode https://t.co/wkonluuuX1 https://t.co/peU5eKp52w
On a high-capacity aluminium battery with a two-electron phenothiazine redox polymer as a positive electrode (relevance: 100%) https://t.co/fpUGUnNh77 #battchat #batterytwitter
Interesting talk by @Besserchemistry at the #SteinheimerGespräche of @chemieverband. She talked about her group's work on organic polymers as RedOx-active units for batteries and on nanohoops with antiaromatic properties. https://t.co/pOgapokFOm
Team develops organic redox polymer for aluminum-ion batteries with improved storage capacity @UniFreiburg https://t.co/6WDPJjiznV https://t.co/lFPEcMaAap
RT @UniFreiburg: Aluminium-Ionen-Batterien mit verbesserter Speicherkapazität: Ein Forschungsteam mit Beteiligung der #UniFreiburg entwicke…
Aluminium-Ionen-Batterien mit verbesserter Speicherkapazität: Ein Forschungsteam mit Beteiligung der #UniFreiburg entwickelt positives Elektrodenmaterial aus einem organischen Redox-Polymer, das auf Phenothiazin basiert. https://t.co/9Sb1t8uxXG @uni_ulm #E
RT @Besserchemistry: We report a high-capacity aluminium battery using a phenothiazine redox polymer cathode and ionic liquid electrolyte i…
RT @Besserchemistry: We report a high-capacity aluminium battery using a phenothiazine redox polymer cathode and ionic liquid electrolyte i…
RT @Besserchemistry: We report a high-capacity aluminium battery using a phenothiazine redox polymer cathode and ionic liquid electrolyte i…
RT @Besserchemistry: We report a high-capacity aluminium battery using a phenothiazine redox polymer cathode and ionic liquid electrolyte i…
RT @Besserchemistry: We report a high-capacity aluminium battery using a phenothiazine redox polymer cathode and ionic liquid electrolyte i…
The shown #ElectrodeMaterial constitutes an advance in the development of rechargeable Aluminium #batteries & paves the way to more sustainable #EnergyStorage. Great team effort involving #livMatS scientists Ingo Krossing @KrossingGroup, Anna Fischer @
×Formazanate ×EMIBF4 in to the system @vera_krewald @CharlotVogtLab
RT @Besserchemistry: We report a high-capacity aluminium battery using a phenothiazine redox polymer cathode and ionic liquid electrolyte i…
We report a high-capacity aluminium battery using a phenothiazine redox polymer cathode and ionic liquid electrolyte in Energy Environ. Sci. Collaboration with @KrossingGroup, SEM by @AnnaFischerLab. #SPP2248 @ClusterPolis @uni_ulm @livMatS_UniFR https://t
On a high-capacity aluminium battery with a two-electron phenothiazine redox polymer as positive electrode (relevance: 100%) https://t.co/fpUGUnNh77 #battchat #batterytwitter https://t.co/6Qs3VEFIqX
RT @BatteryPapers: On a high-capacity aluminium battery with a two-electron phenothiazine redox polymer as positive electrode https://t.co/…
On a high-capacity aluminium battery with a two-electron phenothiazine redox polymer as positive electrode https://t.co/zMMTTjrUw0
On a high-capacity aluminium battery with a two-electron phenothiazine redox polymer as positive electrode https://t.co/wkonluuuX1