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

Fluorine-Free Ionic Liquid Based Electrolytes: Synthesis and Structural Characterization

Ahmed, Mukhtiar

January 2022

Since their introduction by Sony in 1990, lithium-ion batteries (LIBs) have acquired a sizable market share. They have the best energy densities, a high open circuit voltage, a low self-discharge rate, no memory effect, and a slow loss of charge when not in use. These properties make them the most popular rechargeable batteries for portable gadgets, electric vehicles and aerospace applications.  They do, however, pose major safety issues since the electrolytes are made up of fluorinated salts dissolved in volatile organic solvents, the former being meta-stable at ambient temperature and the latter being flammable a with high vapour pressure. Thus, there is an urge to develop thermally and electrochemically stable non-fluorinated electrolytes to improve the safety and performance of batteries. Electrolytes based on ionic liquids (ILs) in general offer a range of suitable advantages including low volatility and high thermal and electrochemical stabilities,and can additionally be made fluorine-free. In general, their physicochemical properties are determined by the interactions between the cations and anions, which are controlled by the chemical functionalities present, with vast freedom in structural design to reduce these interactions and enhance also the ion mobilities.  In this study, favoring from of “structural design” three different families of fluorine-free ionic liquids-based electrolytes are designed and created. These families of ILs comprising n- tetrabutylphosphonium, imidazolium, pyridinium based cations and pyridine, pyrazine and ether functionalized salicylate-based anions. The structures and purity of these new ILs are characterized by using multinuclear NMR, FTIR and mass spectrometry. Several features and properties of the novel electrolytes are investigated; thermogravimetric analysis, differential scanning calorimetry, ionic conductivity and electrochemical stability. These studies are further complemented by using PFG NMR diffusometry to understand the possible interaction mechanisms between the oppositely charged ions within the electrolytes, and especially, the influence of Li+ addition in the IL-based electrolytes.

Ionic Liquids

Electrolytes

Sustainability

Vitamin B3

Chemical Process Engineering

Kemiska processer

Applications of Surface Analysis Techniques to the Study of Electrochemical Systems

Johnston, Matthew Gerard

14 July 2004

No description available.

Chemistry, Physical

UHV electrochemistry

Ionic liquid

electrodepostion

Li+

Carbon anode

Glassy carbon

electrochemical double layer capacitor

Hemeproteins Bathed in Ionic Liquids: Examining the Role of Water and Protons in Redox Behavior and Catalytic Function

Moran, John Joseph

03 August 2009

No description available.

Biochemistry

Electrochemistry

hemeproteins

nitric oxide synthase

NOS

myoglobin

proton transfer

ionic liquids

isotopic effects

ALKYLAMMONIUM FORMATE IONIC LIQUIDS AS SOLVENTS FOR FLUORESCENCE AND LIQUID CHROMATOGRAPHY METHODS

Dotlich, Erin Michele

28 April 2008

No description available.

Chemistry

Reversed Phase Liquid Chromatography Using the Ionic Liquid Isopropylammonium Formate and Comparison of Indirect Spectrophotometric Methods for Phosphate

Collins, Matthew P.

08 August 2011

No description available.

Analytical Chemistry

Chemistry

Ionic Liquid

High Performance Liquid Chromatography

HPLC

Cytochrome C

Isopropylammonium Formate

Synthesis and Characterization of Ionically Bonded Diblock Copolymers

Feng, Lei

January 2013

No description available.

Polymers

block copolymer

supramolecular polymer

RAFT polymerization

ionic bond

Perovskites for use as sulfur tolerant anodes

Howell, Thomas G.

27 October 2014

No description available.

Materials Science

Solid oxide fuel cells

sulfur tolerance

anode

perovskite

sol-gel

mixed ionic and electronic conductor

Ion-tagged Phosphines for Catalytic Reactions in Ionic Liquids

Keith, Adam J.

January 2014

No description available.

Chemistry

ionic liquids

phosphines

gramine

Suzuki coupling

Suzuki-Miyaura

hydroformylation

trihexyltetradecylphosphonium

Transport of Charged and Uncharged Solutes in Hydrated Human Nail Plate

Baswan, Sudhir

January 2014

No description available.

Health Sciences

Human Nail Plate

Ionic Mobility

Onychomycosis

Transport Number

Iontophoresis

Permselectivity