New anode- and cathode-active materials for organic batteries:
The development and synthesis of new polymers for organic batteries is a long and difficult process rife with challenges. However, the reward for this are suitable materials for the next generation of secondary batteries. The investigations within the scope of this thesis are focused on the discover...
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| Format: | Abschlussarbeit Buch |
| Sprache: | English |
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| Zusammenfassung: | The development and synthesis of new polymers for organic batteries is a long and difficult process rife with challenges. However, the reward for this are suitable materials for the next generation of secondary batteries. The investigations within the scope of this thesis are focused on the discovery of new redox-active polymers suitable as active materials in batteries. These organic battery materials can compete with inorganic materials in terms of theoretical capacity, power and energy density. The most beneficial features of these compounds like light weight, flexibility, printability and environmental friendliness make them promising candidates for secondary organic batteries. With the vast repertoire of known redox-active species the transfer of those into a polymeric structure and their subsequent electrochemical testing can provide access to a wide variety of different electrode materials. In this thesis new polymers were developed as active battery-materials and tested for their capabilities in batteries. This includes the functionalization and optimization of well-known polymers like galvinoxyles and the incorporation of less-known redox-materials in polymeric compounds. Several new polymers, containing anode- or cathode-active compounds were synthesized. Galvinoxyl- and phenoxyl-compounds are addressed as well as quinones, anthraquinones and nitroxides. These polymeric compounds were subsequently intensively tested for their application as electrode material and incorporated into batteries, including the fabrication of a battery using inkjet-printing. By changing the functional groups of the polymers, their redox-potentials, stability or solubility are changed and new batteries were created. Those different batteries show the versatility of polymers as electrode-materials and the possibility to adjust a batteries capability to the desired specifications |
| Beschreibung: | Enthält Beiträge aus verschiedenen Zeitschriften |
| Beschreibung: | 149 Seiten Illustrationen, Diagramme 30 cm |
| DOI: | 10.22032/dbt.34458 |
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| 520 | 3 | |a The development and synthesis of new polymers for organic batteries is a long and difficult process rife with challenges. However, the reward for this are suitable materials for the next generation of secondary batteries. The investigations within the scope of this thesis are focused on the discovery of new redox-active polymers suitable as active materials in batteries. These organic battery materials can compete with inorganic materials in terms of theoretical capacity, power and energy density. The most beneficial features of these compounds like light weight, flexibility, printability and environmental friendliness make them promising candidates for secondary organic batteries. With the vast repertoire of known redox-active species the transfer of those into a polymeric structure and their subsequent electrochemical testing can provide access to a wide variety of different electrode materials. In this thesis new polymers were developed as active battery-materials and tested for their capabilities in batteries. This includes the functionalization and optimization of well-known polymers like galvinoxyles and the incorporation of less-known redox-materials in polymeric compounds. Several new polymers, containing anode- or cathode-active compounds were synthesized. Galvinoxyl- and phenoxyl-compounds are addressed as well as quinones, anthraquinones and nitroxides. These polymeric compounds were subsequently intensively tested for their application as electrode material and incorporated into batteries, including the fabrication of a battery using inkjet-printing. By changing the functional groups of the polymers, their redox-potentials, stability or solubility are changed and new batteries were created. Those different batteries show the versatility of polymers as electrode-materials and the possibility to adjust a batteries capability to the desired specifications | |
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Datensatz im Suchindex
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| discipline | Elektrotechnik / Elektronik / Nachrichtentechnik |
| doi_str_mv | 10.22032/dbt.34458 |
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| spelling | Jähnert, Thomas 1986- Verfasser (DE-588)1153781271 aut New anode- and cathode-active materials for organic batteries von Diplom-Chemiker Thomas Jähnert Jena 2018 149 Seiten Illustrationen, Diagramme 30 cm txt rdacontent n rdamedia nc rdacarrier Enthält Beiträge aus verschiedenen Zeitschriften Kumulative Dissertation Friedrich-Schiller-Universität Jena 2018 The development and synthesis of new polymers for organic batteries is a long and difficult process rife with challenges. However, the reward for this are suitable materials for the next generation of secondary batteries. The investigations within the scope of this thesis are focused on the discovery of new redox-active polymers suitable as active materials in batteries. These organic battery materials can compete with inorganic materials in terms of theoretical capacity, power and energy density. The most beneficial features of these compounds like light weight, flexibility, printability and environmental friendliness make them promising candidates for secondary organic batteries. With the vast repertoire of known redox-active species the transfer of those into a polymeric structure and their subsequent electrochemical testing can provide access to a wide variety of different electrode materials. In this thesis new polymers were developed as active battery-materials and tested for their capabilities in batteries. This includes the functionalization and optimization of well-known polymers like galvinoxyles and the incorporation of less-known redox-materials in polymeric compounds. Several new polymers, containing anode- or cathode-active compounds were synthesized. Galvinoxyl- and phenoxyl-compounds are addressed as well as quinones, anthraquinones and nitroxides. These polymeric compounds were subsequently intensively tested for their application as electrode material and incorporated into batteries, including the fabrication of a battery using inkjet-printing. By changing the functional groups of the polymers, their redox-potentials, stability or solubility are changed and new batteries were created. Those different batteries show the versatility of polymers as electrode-materials and the possibility to adjust a batteries capability to the desired specifications Zusammenfassungen in deutscher und englischer Sprache Phenoxyl (DE-588)4319759-0 gnd rswk-swf Batterie (DE-588)4004687-4 gnd rswk-swf Reaktive Polymere (DE-588)4403842-2 gnd rswk-swf Galvinoxyl (DE-588)4155916-2 gnd rswk-swf (DE-588)4113937-9 Hochschulschrift gnd-content Reaktive Polymere (DE-588)4403842-2 s Batterie (DE-588)4004687-4 s Galvinoxyl (DE-588)4155916-2 s Phenoxyl (DE-588)4319759-0 s DE-604 Friedrich-Schiller-Universität Jena Chemisch-Geowissenschaftliche Fakultät (DE-588)5255801-0 dgg Erscheint auch als Online-Ausgabe https://doi.org/10.22032/dbt.34458 https://doi.org/10.22032/dbt.34458 Verlag kostenfrei Volltext |
| spellingShingle | Jähnert, Thomas 1986- New anode- and cathode-active materials for organic batteries Phenoxyl (DE-588)4319759-0 gnd Batterie (DE-588)4004687-4 gnd Reaktive Polymere (DE-588)4403842-2 gnd Galvinoxyl (DE-588)4155916-2 gnd |
| subject_GND | (DE-588)4319759-0 (DE-588)4004687-4 (DE-588)4403842-2 (DE-588)4155916-2 (DE-588)4113937-9 |
| title | New anode- and cathode-active materials for organic batteries |
| title_auth | New anode- and cathode-active materials for organic batteries |
| title_exact_search | New anode- and cathode-active materials for organic batteries |
| title_full | New anode- and cathode-active materials for organic batteries von Diplom-Chemiker Thomas Jähnert |
| title_fullStr | New anode- and cathode-active materials for organic batteries von Diplom-Chemiker Thomas Jähnert |
| title_full_unstemmed | New anode- and cathode-active materials for organic batteries von Diplom-Chemiker Thomas Jähnert |
| title_short | New anode- and cathode-active materials for organic batteries |
| title_sort | new anode and cathode active materials for organic batteries |
| topic | Phenoxyl (DE-588)4319759-0 gnd Batterie (DE-588)4004687-4 gnd Reaktive Polymere (DE-588)4403842-2 gnd Galvinoxyl (DE-588)4155916-2 gnd |
| topic_facet | Phenoxyl Batterie Reaktive Polymere Galvinoxyl Hochschulschrift |
| url | https://doi.org/10.22032/dbt.34458 |
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