Current Projects
Part IIs 2024-2025
Name |
College |
Title |
Supervisors |
Enyala BANKS | QNS | Ge-on-Si Monolithic Integration for Scaling Performance of Microelectronic Systems | Zimmerling@MIT |
Thomas BATCHELOR |
QNS |
Effects of hydrogen on nanomechanical behaviour or materials for a hydrogen energy economy |
DEJA |
Lucas BETZ- KOELING |
STC |
Studying the structure and excited states of defect complexes in crystals using computational modelling |
J Prentice |
James |
MAN |
Defect engineering in diamond for quantum technology |
JMS |
James BIGNELL |
STC |
SOEC performance in relation to the grain boundary network |
KM |
Milo COOMBS |
QNS |
Quantum electronic devices made from carbon |
LB/JMS |
Isabella |
STA |
Investigating the origin of the fixed charge in field-effect-passivated solar cells |
CEP |
Alexander |
TRI |
Mechanical properties of coatings for nuclear fusion |
A Kareer |
David CRAVEN |
QNS |
Development of solder-free superconducting joints for MRI magnets |
SCS |
Tobie DEDRICK |
STC |
Nano 3-D Printing |
AARW |
Isabel FERNANDEZ-VICTORIO |
SEH |
Superconducting thin films for quantum devices |
SCS |
Toby FOLKES |
MAN |
Understanding and mimicking mechanochemical synthesis of next generation battery materials |
RAH |
Thomas |
STA |
Development of advanced EBSD techniques for high temperature superconductors |
SCS |
Alex GOODDY |
CCC |
In situ 3D study of the compressive failure of densified wood |
TJM |
Madge |
TRI |
3D analysis of irradiation creep in nuclear graphite |
TJM |
Eve HARGREAVES |
QNS |
Atom Probe Tomography characterisation of critical metals from North Pennine mineral and mine wastes; determining the potential for viable metal recovery |
PAJB |
Peter HINDSON |
STC |
High-resolution characterisation of advanced Al alloys for wire arc additive manufacturing of space components |
SLP |
Zhoujun HOU |
QNS |
Eutectic alloys for solid state battery anodes |
CRMG |
Nirali JAIN |
CCC |
Electron diffraction study of short-range order in metal alloys |
RJN |
Benedict |
SEH |
Exploring new synthesis routes for oxyfluoride battery cathode materials |
RAH |
Veronica LAI |
STC |
Sampling surface reactivity of lithium-ion battery cathodes |
MSI |
Tom LANCASTER | STA | High-throughput synthesis and characterisation of high entropy electrolytes for Na and Li metal batteries | Li@MIT, RSW |
Abigail LANDER |
CCC |
Thermomechanical processing of vanadium alloys |
DEJA |
Ariana |
MAN |
Controlling damage in electron microscopy characterisation of polymers |
PDN |
Daniel NIXON |
STA |
Oxidation behaviour of model and ex- service Pt-group alloys |
PAJB |
Ramunas SAVANEVSKIS |
MAN |
High Throughput Testing of Recyclable Sustainable High Entropy Alloys |
AJW |
Phillip SILLER* | WAD | Ion Dynamics in Prussian Blue analogue cathodes | MP |
Inigo STRATTON |
STC |
Size-selected multi-component alloy nanoparticles for electrochemical fuel production |
RSW |
Qianyi SUN |
SEH |
Effect of precipitation on fusion reactor structural materials |
SLP |
Shin Huey TER |
CCC |
Rocket Science - multi-material additive manufacturing for propulsion systems |
AJW |
Rajesh |
MAN |
Structural and electronic properties of a metallic monolayer on an oxide crystal surface |
MRC |
Astoria WANG |
MAN |
Functional Dielectric Nanolayers in Optoelectronic Devices |
RSB |
Emily WEAL |
QNS |
Modelling New Materials for Rechargeable Batteries |
JRY |
Charlotte WHEATLEY |
QNS |
Persistent joints in high temperature superconductors |
SCS |
Thomas WHITEHEAD |
STA |
Liquid Lithium Corrosion |
CRMG |
Zofia WOLNY | TRI | Printable composites for implantable electronic systems | Nair@EngSci, JTC |
Lucius WONG |
TRI |
Modelling semiconductor/oxide interfaces for next generation photovoltaics |
CEP |
Harry WRIGHT |
STA |
Metallisation Technology for Next- Generation Photovoltaics |
RSB |
Renkai ZHANG | STC | Direct-formation of suspended 2D materials membranes | RSW |
Shuzhe ZHENG | STA | Control of long-term drug release for implantable devices | HEA |
Ruidong ZHOU | STA | Inverse-designed metasurface for hydrogen sensing | Hu@MIT, JMS |
Lin ZHU | SEH | Predicting the performance and usefulness of near-term quantum computers | SCB |
* Chemistry student undertaking Part II project in Materials