Dr Stacy Moore
MSci, PhD
Expertise
Dr Stacy Moore has pioneered the use of contact-mode high-speed atomic force microscopy (HS-AFM) to characterise materials in extreme environments, with a focus on materials degradation processes and localised corrosion phenomena.
Current positions
Lecturer
School of Physics
Contact
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Biography
Stacy’s work using the HS-AFM has won several awards including the Institute of Corrosion’s Jack Galloway award for best early career publication in corrosion (twice) and conference awards from the International Cooperative Group on Environmentally-Assisted Cracking and the UK Surface Analysis Forum.
Research interests
Dr Stacy Moore’s research includes numerous areas of materials, corrosion, and nuclear science, including the study of irradiation and thermal sensitisation of steel microstructure, localised corrosion mechanisms such as pitting corrosion and stress corrosion cracking, and slip banding in fatigue.
Stacy is an expert in the applications of contact-mode high-speed atomic force microscopy (HS-AFM) and has pioneered HS-AFM in the field of materials science. HS-AFM is capable of nanometre-scale lateral resolution and sub-second temporal resolution measurements of topography in ambient, liquid, and controlled gaseous environments. This unique combination of capabilities makes the HS-AFM able to perform real-time in-situ observations of dynamic processes, such as corrosion, and nanoscale analysis over millimetre or even centimetre sized areas.
Projects and supervisions
Research projects
EPSRC Doctoral Prize Fellowship
Principal Investigator
Managing organisational unit
Interface Analysis CentreDates
02/08/2021 to 01/08/2023
Publications
Selected publications
18/01/2021Observation of stress corrosion cracking using real-time in situ high-speed atomic force microscopy and correlative techniques
npj Materials Degradation
Stress Corrosion Cracking in Stainless Steels
Reference Module in Materials Science and Materials Engineering
The tiny flaws behind big failures
Physics World
Real-Time and Correlative Imaging of Localised Corrosion Events by High-Speed Atomic Force Microscopy
Microscopy and Microanalysis
Recent publications
01/05/2024A correlative approach to evaluating the links between local microstructural parameters and creep initiated cavities
Materials and Design
Microstructural Analysis of Ex-Service Neutron Irradiated Stainless Steel Nuclear Fuel Cladding by High-Speed AFM
Journal of Nuclear Materials
The Transient Thermal Ageing of Eurofer 97 by Mitigated Plasma Disruptions
Materials and Design
Microstructural modelling and characterisation of laser-keyhole welded Eurofer 97
Materials and Design
The tiny flaws behind big failures
Physics World
Thesis
A Study of Stress Corrosion Cracking by High-Speed Atomic Force Microscopy
Supervisors
Award date
24/06/2021