magistrsko delo
Mark Kozamernik (Author), Boštjan Genorio (Mentor), Marjan Marinšek (Thesis defence commission member), Miran Gaberšček (Thesis defence commission member)

Abstract

Grafen je stabilen 2-D material z izjemnimi lastnostmi, kot so dobra mehanska obstojnost, visoka električna in termična prevodnost. Potencialno se ga lahko uporablja v katalitskih procesih, polimernih nanokompozitih in elektrokemijskih napravah, kot so: superkondenzatorji, baterije, sončne in gorivne celice. Pričakuje se, da bodo gorivne celice postale tehnologija prihodnosti, predvsem za pretvorbo energije. Med raznimi vrstami gorivnih celic se etanolnim gorivnim celicam posveča veliko pozornosti zaradi enostavne dostopnosti etanola, varnega skladiščenja in uporabe relativno poceni ter neplemenitih kovinskih katalizatorjev. Ključni sestavni del gorivnih celic predstavlja ionska izmenjevalna membrana, ki zagotavlja ionsko prevodnost ter deluje kot separator med anodo in katodo. Komercializacija etanolnih gorivnih celic je trenutno še vedno omejena zaradi počasne kinetike anodnih elektrokemijskih reakcij in prehajanja etanola skozi membrano. V ta namen je potrebno razviti nove membrane z izboljšanimi lastnostmi. V okviru magistrskega dela sem preko kemijskih postopkov iz večstenskih ogljikovih nanocevk (MWCNT) uspešno pripravil derivate grafena. S pomočjo karakterizacijskih metod, kot so vrstična elektronska mikroskopija (SEM), elementni analizi (CHN in EDS) ter analiza specifične površine (BET), sem analiziral lastnosti dobljenih materialov. Z uvajanjem grafena dopiranega z dušikom (N-grafen) v hitozan so bile izdelane kompozitne membrane z izboljšanimi lastnostmi. Z namenom merjenja električne upornosti membran sem razvil in testiral ustrezno elektrokemijsko celico. Ionsko prevodnost membran sem določil z metodo elektrokemijske impedančne spektroskopije (EIS). Ugotovil sem, da so največji potencial izkazale membrane z 0,04 ut. % N-grafena, saj so dosegle najvišje vrednosti ionske prevodnosti.

Keywords

gorivne celice;etanol;membrane;grafen;dopiranje;ionska prevodnost;magistrska dela;

Data

Language: Slovenian
Year of publishing:
Typology: 2.09 - Master's Thesis
Organization: UL FKKT - Faculty of Chemistry and Chemical Technology
Publisher: [M. Kozamernik]
UDC: 621.352.6:620.1(043.2)
COBISS: 85481731 Link will open in a new window
Views: 268
Downloads: 61
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Other data

Secondary language: English
Secondary title: Graphene based membranes for direct ethanol fuel cell applications
Secondary abstract: Graphene is a stable two-dimensional material with outstanding properties, such as good mechanical strength, high electrical and thermal conductivity. It can be potentially used in catalytic processes, polymer nanocomposites and electrochemical devices, such as: supercapacitors, batteries, solar and fuel cells. Fuel cells are expected to become the technology of the future, especially for energy conversion. Among the various types of fuel cells, much attention is paid to ethanol fuel cells due to easy availability of ethanol, safe storage and the use of relatively inexpensive and non-noble metal catalysts. A key component of fuel cells is the ion exchange membrane, which provides ionic conductivity and acts as a separator between the anode and cathode. The commercialization of ethanol fuel cells is currently still limited due to the slow kinetics of anodic electrochemical reactions and the crossover of ethanol across the membrane. To this end, new membranes with improved properties need to be developed. As part of my master's thesis I used chemical procedures to produce graphene derivatives from multiwalled carbon nanotubes (MWCNT). By using characterization methods, such as scanning electron microscopy (SEM), elemental analysis (CHN and EDS) and BET-specific surface analysis, I analyzed the properties of the obtained materials. By introducing nitrogen doped graphene (N-graphene) into chitosan, composite membranes with improved properties were fabricated. To measure the electrical resistance of the membranes, I developed and tested a suitable electrochemical cell. The ionic conductivity of the membranes was determined by electrochemical impedance spectroscopy (EIS). The most promising results were shown by membranes with 0,04 wt. % N-graphene, as they achieved the highest values of ionic conductivity.
Secondary keywords: graphene;ethanol;fuel cells;membrane;ionic conductivity;
Type (COBISS): Master's thesis/paper
Study programme: 1000376
Embargo end date (OpenAIRE): 1970-01-01
Thesis comment: Univ. v Ljubljani, Fak. za kemijo in kemijsko tehnologijo, smer Kemijsko inženirstvo
Pages: 95 str.
ID: 13454782