Freestanding graphite cathode with graphene additive for aluminum dual-ion batteries

Rosvall, Adam

January 2023

In today’s fast adjustment to renewable energy, new battery technologies are needed to meetthe ever-growing demands of energy storage. Cheaper and easier to produce materials areneeded, as well as materials with a lower environmental impact. One new and interestingtechnology is the dual-ion battery, and more specifically the aluminum dual-ion battery. Thisbattery uses cheap and abundant aluminum together with a graphitic cathode to work. However,a lot of research today uses expensive and sophisticated cathode materials to make this type ofbattery work. Therefore, this thesis focuses on creating a cheap and easy to produce graphitecathode material through the phase inversion method for the use in aluminum dual-ionbatteries, that is also freestanding for better energy density. Graphene is also used as anadditive to improve the electrical conductivity of the material, and the material is later tested in afull cell with the typical ionc liquid electrolyte EMImCL/AlCl4.Through phase inversion, a freestanding graphite cathode is produced with 8 wt% PVDF binderand 0.4 wt% graphene. The material has a porous structure and an enhanced electricalconductivity with the graphene added. Through CV cycling and symmetric Al-Al tests the batteryreactions are shown to work. However, when cycling the cell with a constant current there areproblems, probably coming from some sort of soft shorting or side reactions. It is revealed thatapart from the expected reactions, Ni dissolution from the contact tabs also takes place, andmay cause problems. Further tests are needed to validate if this material works. However,because no new active materials have been introduced to the battery chemistry, it is reasonableto believe that the battery will work with some small changes.Tek nisk-naturvetensk apliga fak ulteten, Upps ala universitet. Utgiv nings ort U pps al a/Vis by . H andledare: Anwar Ahniy az , Äm nesgranskar e: D aniel Brandell, Ex aminator: Lena Klintberg

Aluminum ion batteries

Dual-ion batteries

Graphite

Graphene

Ionic liquid

Phase inversion method

Materials Chemistry

Materialkemi

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14 July 2004

No description available.

Chemistry, Physical

UHV electrochemistry

Ionic liquid

electrodepostion

Li+

Carbon anode

Glassy carbon

electrochemical double layer capacitor

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No description available.

Analytical Chemistry

Chemistry

Ionic Liquid

High Performance Liquid Chromatography

HPLC

Cytochrome C

Isopropylammonium Formate

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19 September 2011

No description available.

Chemical Engineering

Chemistry

Materials Science

Nanotechnology

Functional nanofiber network

Ionic liquid

Membranes

Carbon nanofiber

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January 2011

No description available.

Alternative Energy

ionic liquid

cellulose II

saccharification

Spezyme CP

Pichia stipitis

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January 2011

No description available.

Alternative Energy

Chemical Engineering

Environmental Engineering

Ionic liquid

biodiesel

fatty acid methyl ester

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No description available.

Chemical Engineering

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No description available.

Chemistry

Surface-confined ionic liquid

LSER

Ionization

Electrostatic interactions

Reversed-phase chromatography

Supercritical fluid chromatography

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No description available.

Chemical Engineering

Materials Science

Mild steel

CO2 corrosion

corrosion inhibitor

EIS

polarization

interfaces

Imidazolium

ionic liquid

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No description available.

Chemical Engineering

Chemistry

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gas separation

room temperature ionic liquid

polyimide