Professor Karen Faulds

Pure and Applied Chemistry

Publications

Investigation of cellular uptake mechanism of functionalised gold nanoparticles into breast cancer using SERS
Kapara Anastasia, Brunton Valerie, Graham Duncan, Faulds Karen
Chemical Science Vol 11, pp. 5819-5829 (2020)
https://doi.org/10.1039/D0SC01255F
2,4-dienoyl-CoA reductase regulates lipid homeostasis in treatment-resistant prostate cancer
Blomme Arnaud, Ford Catriona A, Mui Ernest, Patel Rachana, Ntala Chara, Jamieson Lauren E, Planque Mélanie, McGregor Grace H, Peixoto Paul, Hervouet Eric, Nixon Colin, Salji Mark, Gaughan Luke, Markert Elke, Repiscak Peter, Sumpton David, Blanco Giovanny Rodriguez, Lilla Sergio, Kamphorst Jurre J, Graham Duncan, Faulds Karen, MacKay Gillian M, Fendt Sarah-Maria, Zanivan Sara, Leung Hing Y
Nature Communications Vol 11 (2020)
https://doi.org/10.1038/s41467-020-16126-7
Surface design for immobilization of an antimicrobial peptide mimic for efficient anti‐biofouling
Hasan Abshar, Lee Kyueui, Tewari Kunal, Pandey Lalit M, Messersmith Phillip B, Faulds Karen, MacLean Michelle, Lau King Hang Aaron
Chemistry - A European Journal Vol 26, pp. 5789-5793 (2020)
https://doi.org/10.1002/chem.202000746
DNA detection by SERS : hybridisation parameters and the potential for asymmetric PCR
Macdonald Daniel, Smith Ewen, Faulds Karen, Graham Duncan
Analyst Vol 145, pp. 1871-1877 (2020)
https://doi.org/10.1039/C9AN01732A
Detection of multiple nitroaromatic explosives via formation of a Janowsky complex and SERS
Milligan Kirsty, Shand Neil C, Graham Duncan, Faulds Karen
Analytical Chemistry Vol 92, pp. 3253-3261 (2020)
https://doi.org/10.1021/acs.analchem.9b05062
Detection of cardiovascular disease associated miR-29a using paper-based microfluidics and surface enhanced Raman scattering
Mabbott Samuel, Fernandes Syrena C, Schechinger Monika, Cote Gerard, Faulds Karen, Mace Charles R, Graham Duncan
Analyst (2019)
https://doi.org/10.1039/C9AN01748H

more publications

Research interests

Our research focuses on using surface enhanced Raman scattering (SERS) to create new approaches to bioanalysis for use in the life and clinical sciences.  SERS is a spectroscopic technique that offers significant advantages over other established techniques such as fluorescence and our research has focused on highlighting the advantages, creating new examples of increased capability in life science applications and interacting with end users to shape future step changes in research.  Our research centres around using the inherent sensitivity of SERS for the detection of target DNA or proteins using signal amplification methods to enhance the signal rather than using target amplification methods such as PCR.  Our work has focussed on exploiting the sensitivity of SERS for quantitative analysis of biomolecules as well as exploiting one of the key advantages of SERS, the ability to analyse multiple analytes in one sample.  This allows more information to be gained per analysis as well as giving information about complex systems that are intrinsically difficult to measure.

Professional activities

SciX 2019
Invited speaker
10/2019
SciX 2019
Keynote/plenary speaker
10/2019
Seminar
Speaker
13/9/2019
Euroanalysis 2019
Keynote/plenary speaker
9/2019
Electrochem2019
Keynote/plenary speaker
9/2019
RSC Chemical Nanosciences and Nanotechnology Network
Keynote/plenary speaker
6/2019

more professional activities

Projects

Catching nucleation in action using surface enhanced Raman spectroscopy
Johnston, Karen (Principal Investigator) Faulds, Karen (Co-investigator) Sefcik, Jan (Co-investigator)
01-Jan-2020 - 31-Jan-2023
Doctoral Training Partnership 2018-19 University of Strathclyde | Fergusson, Jodie
Faulds, Karen (Principal Investigator) Graham, Duncan (Co-investigator) Fergusson, Jodie (Research Co-investigator)
01-Jan-2019 - 01-Jan-2023
Doctoral Training Partnership 2018-19 University of Strathclyde | Buchanan, Craig
Graham, Duncan (Principal Investigator) Faulds, Karen (Co-investigator) Buchanan, Craig (Research Co-investigator)
01-Jan-2019 - 01-Jan-2023
Optical detection of listeria using bionanosensors ( Follow-on Funding Pathfinder)
Faulds, Karen (Principal Investigator)
01-Jan-2019 - 30-Jan-2019
HTAF - Development of a Rapid Point of Use Detection System for the Assessment of Liver Damage
Graham, Duncan (Principal Investigator) Faulds, Karen (Co-investigator)
12-Jan-2019 - 29-Jan-2020
Mphil with Pfizer
Graham, Duncan (Principal Investigator) Faulds, Karen (Co-investigator)
01-Jan-2019 - 30-Jan-2020

more projects

Address

Pure and Applied Chemistry
Technology Innovation Centre

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