Skip to main content
site://Expert Centre/experts/_files/assets/headshots/stotesbury.jpg

Theresa Stotesbury
PhD

Assistant Professor

Forensic Science

Dr. Stotesbury is a forensic research scientist focused on understanding the (bio)chemical properties of common types of physical evidences and traces deposited at crime scenes and how they persist in the environment.

theresa.stotesbury@ontariotechu.ca
905.721.8668 ext. 3412


Social media



  • PhD, Materials Science Trent University, Ontario
  • MSc, Forensic Science University of Auckland, Auckland
  • BSc, Forensic Science Trent University, Ontario
Student authors: * denoting undergraduate and ^ denoting graduate

  • Tiessen M*, Stock NL, Stotesbury T. Untargeted SPME-GC-MS characterization of VOCs released from spray paint. Journal of Chromatographic Sciences (2020). DOI: 10.1093/chromsci/bmaa082
  • Yeh K*, Burr WS, Stock NL, Stotesbury T. Preliminary analysis of latent fingerprints recovered from underneath bloodstains using Matrix-Assisted Laser Desorption/Ionization Fourier-Transform Ion Cyclotron Resonance Mass Spectrometry Imaging (MALDI FT-ICR MSI). Forensic Chemistry (2020). .
  • Stotesbury T, Cossette M*, Newell-Bell T*, Shafer AB. An exploratory time since deposition analysis of whole blood using metrics of DNA degradation and visible absorbance spectroscopy. Pure Appl. Geophys. (2020). .
  • Beresford DV, Stotesbury T, Langer SV, Illes M, Kyle CJ, Yamashita B. Bridging the gap between academia and practice: Perspectives from two large-scale and niche research projects in Canada. Science & Justice. 2020;Jan1:95-8.
  • Orr A^, Stotesbury T, Wilson P, Stock NL. The use of high-resolution mass spectrometry (HRMS) for the analysis of DNA and other macromolecules: a how-to guide for forensic chemistry. Forensic Chemistry. 2019;May 30:100169.
  • Boos K*, Orr A^, Illes M, Stotesbury T. Characterizing drip patterns in bloodstain pattern analysis: influence of droplet impact velocity and number of droplets on static pattern features. Forensic Science International. 2019;301(1):55-66.
  • Orr A^, Illes M, Beland J, Stotesbury T. Validation of Sherlock, a linear trajectory analysis program for use in bloodstain pattern analysis. Canadian Society of Forensic Science Journal. 2019;Mar 4:1-7.
  • Polacco S^, Wilson P, Illes M, Vreugdenhil A, Stotesbury T. Luminol reagent control materials in bloodstain pattern analysis: a silicon sol-gel polymer alternative. Forensic Chemistry. 2019;12(1):91-8.
  • Shetranjiwalla S, Vreugenhil A, Stotesbury T. Waterborne epoxy-thiol silica sol-gel coatings: impact of crosslinking on corrosion protection. Journal of Sol Gel Science and Technology. 2018;87(2):504-13.
  • Illes M, Bruce C, Stotesbury T, Hanley-Dafoe R. A study on student engagement within a forensic science course. Journal of Multidisciplinary Research at Trent. 2018;1(1):55-70.
  • Polacco S^, Illes M, Wilson P, Stotesbury T. Quantifying chemiluminescence of the forensic luminol test for ovine blood in a dilution and time series. Forensic Science International. 2018;290(1):36-41.
  • Polacco S*, Illes M, Stotesbury T. The use of a forensic blood substitute for impact pattern area of origin estimation via three trajectory analysis programs. Canadian Society of Forensic Science Journal. 2018; May:1-9.
  • Stotesbury T, Illes, M, Wilson P, Vreugdenhil, AJ. The application of silicon sol-gel technology to forensic blood substitute development: investigation of the spreading dynamics onto a paper surface. Forensic Science International. 2017;275(1):308-13.
  • Stotesbury T, Illes M, Vreugdenhil AJ. High-speed video analysis of crown formation dynamics of controlled weapon-head impacts onto three surface types. Canadian Society of Forensic Science Journal. 2017;50(2):64-73.
  • Stotesbury T, Illes M, Wilson P, Vreugdenhil AJ. The application of silicon sol-gel technology to forensic blood substitute development: mimicking aspects of whole human blood rheology. Forensic Science International. 2017;270(1):12-9.
  • Stotesbury T, Taylor MC, Jermy MC. Simulated transfer dynamics of blood onto cardboard and comparison to simple fluids for blood substitute development and assessment. Canadian Society of Forensic Science Journal. 2017;50(1):30-41.
  • Stotesbury T, Taylor MC, Jermy MC. Passive drip stain formation dynamics of blood onto hard surfaces and comparison to simple fluids for blood substitute development and assessment. Journal of Forensic Sciences. 2017;62(1):74-82.
  • Illes M, Bruce C, Hanley-Dafoe R, Stotesbury T. Novel technological approaches for pedagogy in forensic science: A case study in bloodstain pattern analysis. Forensic Science Policy & Management: An International Journal. 2016;7(3-4):87-97.
  • Stotesbury T, Bruce C, Illes M, Hanley-Dafoe R. Design considerations for the implementation of artificial fluids as blood substitutes for educational and training use in the forensic sciences. Forensic Science Policy & Management: An International Journal. 2016;7(3-4):81-6.
  • Stotesbury T, Illes M, Jermy MC, Taylor MC, Wilhelm J, Vreugdenhil AJ. Three physical factors that affect the crown growth of the impact mechanism and its implications for bloodstain pattern analysis. Forensic Science International. 2016; 266(1):254-62.
  • Illes M, Stotesbury T. Development of an application method for a zone stain selection model in bloodstain pattern analysis. Canadian Society of Forensic Science Journal. 2016;49(1):19-25.
  • Stotesbury T, Illes M, Vreugdenhil AJ. An impact velocity device design for blood spatter pattern generation with considerations for high-speed video analysis. Journal of Forensic Sciences. 2016;61(2):501-8.
  • Stotesbury T, Illes M, Wilson P, Vreugdenhil AJ. A commentary on synthetic blood substitute research and development. Journal of Bloodstain Pattern Analysis. 2015;31(2):3-6.
  • Kabaliuk N, Jermy MC, Morison K, Stotesbury T, Taylor MC, Williams E. Blood drop size in passive dripping from weapons. Forensic Science International. 2013;228(1):75-82.
  • Zhou Y, Stotesbury T, Dimock B, Vreugdenhil AJ, Hintelmann H. Novel silica sol-gel passive sampler for mercury monitoring in aqueous systems. Chemosphere. 2012;90(2):323-8.
  • Stotesbury T, Illes M, Vreugdenhil A. Investigation of physical effects of Acid Yellow 7 enhancement on dark and non-porous surfaces in impact pattern area of origin estimation. Canadian Society of Forensic Sciences Journal. 2012;45(1):22-35.
  • Nowack L, Collins R, Li G, Carter AL, Illes M, Gorman V, Larocque S, Stotesbury T, Yamashita, B. Computer analysis of bloodstain patterns on angled surfaces. Journal of Bloodstain Pattern Analysis. 2011;27(3):17-28.

Applied Forensic BioScience Program

Materials Science Graduate Program

  • CHEM 3820U
  • FSCI 3040U
  • FSCI 4030U
  • FSCI 4430U
  • MTSC 6010H