Dr Kris Thompson
Research Associate
School of Information and Physical Sciences
Career Summary
Biography
Kris is a Research Associate in the Centre for Organic Electronics (COE). He received his Bachelor of Environmental Science and Management (Honours) and PhD at the University of Newcastle.
His PhD "Sustainability in Organic Photovoltaics" investigated the environmental impacts, and recyclability of thin film printed solar.
Throughout his PhD Kris was part of the fabrication team for Charge Around Australia and Coldplay.
Qualifications
- Doctor in Philospohy in Physics, University of Newcastle
- Bachelor of Environmental Science and Management, University of Newcastle
- Bachelor of Environmental Science and Management (Honours), University of Newcastle
Keywords
- Functional Printing
- Life Cycle Analysis
- Sustainability
Languages
- English (Mother)
Fields of Research
| Code | Description | Percentage |
|---|---|---|
| 401105 | Life cycle assessment and industrial ecology | 30 |
| 401802 | Molecular and organic electronics | 70 |
Professional Experience
UON Appointment
| Title | Organisation / Department |
|---|---|
| Research Associate | University of Newcastle School of Information and Physical Sciences Australia |
Publications
For publications that are currently unpublished or in-press, details are shown in italics.
Journal article (2 outputs)
| Year | Citation | Altmetrics | Link | ||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|
| 2024 |
Elkington DC, Cooling NA, Lim S-L, Trinh NT, Al-Ahmad A, Lewis T, Thompson KL, Chowdhury R, Belcher W, Dastoor PC, 'Upscaling laboratory organic electronic sensor devices to roll-to-roll printing: The effect of printable electrodes on device operation', APPLIED PHYSICS LETTERS, 124 (2024) [C1]
The prospect of large-scale production of low-cost electronic devices is a driving factor behind the recent interest in printed organic electronics. However, the upscal... [more] The prospect of large-scale production of low-cost electronic devices is a driving factor behind the recent interest in printed organic electronics. However, the upscaling of laboratory organic electronic devices is extremely challenging since it requires the adaptation of materials and fabrication processes optimized for the small scale to industrial manufacturing techniques, such as roll-to-roll printing. Here, we demonstrate the fabrication of all-printed organic biosensors at the pilot production scale for use in the detection of glucose. By translating device architecture and operation, as well as electrode design and ink formulations of previously reported laboratory-scale glucose sensors to industrial printing and coating processes, we demonstrate sub-millimolar sensitivity to glucose in fully printed devices in a process which is now scalable to commercial production quantities. This Letter highlights the significant challenges associated with developing upscaled printed organic electronic biosensors and the approaches needed to address them.
|
Open Research Newcastle | |||||||||
| 2021 |
Posar JA, Davis J, Alnaghy S, Wilkinson D, Cottam S, Lee DM, Thompson KL, Holmes NP, Barr M, Fahy A, Nicolaidis NC, Louie F, Fraboni B, Sellin PJ, Lerch MLF, Rosenfeld AB, Petasecca M, Griffith MJ, 'Polymer Photodetectors for Printable, Flexible, and Fully Tissue Equivalent X-Ray Detection with Zero-Bias Operation and Ultrafast Temporal Responses', ADVANCED MATERIALS TECHNOLOGIES, 6 (2021) [C1]
|
Open Research Newcastle | |||||||||
Dr Kris Thompson
Position
Research Associate
Centre for Organic Electronics
School of Information and Physical Sciences
College of Engineering, Science and Environment
Contact Details
| kris.thompson@newcastle.edu.au |