Developing and enhancing solid polymer electrolytes (SPEs), is crucial for
improving energy storage devices, such as batteries and supercapacitors.
However, most introduced synthetic polymers are derived from non-renewable
petroleum products and have limitations such as maintaining pollution, toxicity,
and recycling or disposal challenges. With the awareness of such growing issues,
biopolymers are an excellent option to consider as a greener alternative to
synthetic materials. This thesis is focused on the development and
characterization of new biopolymer-based electrolytes. The theoretical part
includes a review of the state of the art in polymer and biopolymer electrolytes,
including preparation methods, classification, composition, and characterization,
whereas the experimental part focuses on the fabrication of biopolymer blend
electrolytes using sodium carboxymethyl cellulose (NaCMC) and pectin, doped
with ammonium bromide (NH4Br) and lithium perchlorate (LiClO4), employing
solution-casting. Furthermore, the study investigates the application of the
prepared electrolytes in small-scale energy storage devices, specifically electrical
double-layer capacitors and primary proton batteries.
Keywords: biopolymers, electrolytes, electrical double layer capacitors, battery.
| ISBN: | 978-80-7678-384-3 |
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| EAN: | 9788076783843 |
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| Počet stran |
59 stran |
| Datum vydání |
31. 12. 2025 |
| Pořadí vydání |
První |
| Jazyk |
anglický |
| Vazba |
e-kniha - pdf |
| Autor: |
Riyadh Abdekadir Khellouf |
| Nakladatelství |
Univerzita Tomáše Bati ve Zlíně |
| Tématická skupina |
999 - nezařazeno |
| Neprodejná publikace. Publikaci je možné poptávat zde: Volně dostupné na http://hdl.handle.net/10563/59077 |
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