Evans Lab

Conor Evans, PhD

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Phone: 617-726-1089
Our Research

The Evans Lab is focused on the development and clinical translation of optical tools to address challenges in biomedical research and clinical medicine. We use optical spectroscopy, imaging, and microscopy methods to detect, measure, and quantify what is otherwise invisible to address unmet needs in the care of patients. We take an interdisciplinary, team-based approach in our research, combining physics, chemistry, biology, engineering, computer science, and clinical expertise. Our lab is located at the Charlestown Navy Yard Building 149, a campus that encourages and fosters discovery, interaction, and collaboration.

Our efforts are focused in two highly complementary areas:

Tissue Oxygen Sensing: “Smart” Bandages and Wearable Devices

We are developing new tools and techniques for detecting, quantifying, and monitoring tissue oxygenation properties. The centerpiece of this technology is a set of newly synthesized, brightly emitting porphyrin oxygen sensors whose emission is modulated by the presence of molecular oxygen. When paired with a green-emitting reference dye, the red phosphorescence emission can be used to precisely measure tissue oxygenation. We have expanded the scope of our tools to include not only tissue oxygen concentration, known as oxygen tension or pO2, but also metrics such as oxygen consumption rate, pulse rate, and blood oxygen saturation in a single measurement. We are developing molecular and electronic methods to be integrated into sensing films, bandages with drug-release capabilities, wearable sensors for patient monitoring, and sports monitors for recovery and performance training. This technology is currently in three clinical trials in the Boston area, and will soon expand to include new studies as we grow this exciting research direction.

Advanced Microscopy: Coherent Raman Imaging, Nonlinear Absorption, and Lifetime Microscopies

Our laboratory is deeply interested in the development of advanced microscopy tools to address biomedical and clinical problems, with a focus on applications in dermatology.  While coherent Raman imaging is a team favorite, we are “technique agnostic” and both use and develop new imaging methods depending on the research or clinical need. For problems in the area of melanoma research, we routinely use a combination of coherent Raman and nonlinear absorption techniques, such as sum-frequency absorption and pump-probe microscopies. A priority in our advanced microscopy research is the in the growing field of Pharmacokinetic and Pharmacodynamic Tomography, where drugs and their downstream effects are measured and quantified using imaging tools. We use mainly coherent Raman and fluorescence lifetime approaches paired with machine learning to map drug uptake and follow treatment response.

Contact Us
Our laboratory is located in the historic Charlestown Navy Yard in Building 149.
149 13th Street
Room 3.209
Charlestown, MA 02129
Phone: 617-724-3701

News

2025-04-04:

The MGH Research Scholars program was launched in 2011 by the hospital and the Research Institute Advisory Council to provide forward-thinking researchers with the unrestricted funding they need to take their work into new and uncharted territories.

Congratulations to Dr. Conor Evans on receiving the 2025 MGH Research Scholars Award!

2025-03-25:

Congratulations to Vietta for passing her qualifier with flying colors!

2025-02-04:

Fantastic job Ting, Saara, and Dandan at this years Photonics West conference