Please login first
Elizabeth Dye   Ms.  Other 
Timeline See timeline
Elizabeth Dye published an article in April 2016.
Top co-authors
Rob Morris

140 shared publications

School of Science and Technology; Nottingham Trent University; Clifton Lane Nottingham NG11 8NS UK

M.I. Newton

91 shared publications

School of Science and Technology; Nottingham Trent University; Clifton Lane Nottingham NG11 8NS UK

Theodore Hughes-Riley

26 shared publications

Advanced Textiles Research Group, School of Art & Design, Nottingham Trent University, Bonington Building, Dryden Street, Nottingham NG1 4GG, UK

Steven Parslow

1 shared publications

Publication Record
Distribution of Articles published per year 

Total number of journals
published in
Article 2 Reads 1 Citation Temperature dependence of magnetic resonance probes for use as embedded sensors in constructed wetlands Theodore Hughes-Riley, Elizabeth R. Dye, Dario Ortega Andere... Published: 01 April 2016
Sensors and Actuators A: Physical, doi: 10.1016/j.sna.2016.01.050
DOI See at publisher website
BOOK-CHAPTER 1 Read 0 Citations Non-invasive measurements of the dry solids content of whole potatoes using unilateral magnetic resonance: towards autom... Elizabeth R. Dye, Theodore Hughes-Riley, Michael I. Newton, ... Published: 01 January 2016
Proceedings of the XIII International Conference on the Applications of Magnetic Resonance in Food Science, doi: 10.1255/mrfs.9
DOI See at publisher website
CONFERENCE-ARTICLE 5 Reads 0 Citations A Low Cost Magnetic Resonance Relaxometry Sensor Elizabeth Dye, Theodore Hughes-Riley, Steven Parslow, Michae... Published: 10 November 2015
2nd International Electronic Conference on Sensors and Applications, doi: 10.3390/ecsa-2-C006
DOI See at publisher website ABS Show/hide abstract

Magnetic resonance relaxometry, conducted by field cycling, has become an increasingly popular technique in recent years. In particular, it has the ability to monitor biomass transformation which is of particular interest to wastewater treatment. Traditional field cycling often uses expensive and large electromagnets. In this work we present a small, portable field cycling sensor which can detect changes in biomass in constructed wetland samples.

Fast field cycling is a technique that uses a varying magnetic field applied to a sample, polarising it at a high field, allowing it time to develop at a lower field and then collecting the data at the same initial high field. This change in T1 can reveal interesting properties of the samples not achievable by traditional methods.

A desktop magnetic resonance sensor that undertakes relaxometry measurements using field cycling has been developed using a combination of permanent magnets and electrical coils which has been used to test a range of samples. We demonstrate the effectiveness of this sensor by conducting measurements of T1 at different field strengths for wetland samples at different stages of biofilm growth.