Who Is Canan Dağdeviren? Age, Biography and Wiki
Canan Dağdeviren was born on May 4, 1985, which makes her 39 years old as of 2025. Recognized for her groundbreaking work in the field of science and technology, Dağdeviren has made significant contributions to biosensors and nanotechnology. After completing her early education in Turkey, she pursued advanced studies that led her to prominence in the scientific community. Her commitment to innovation has garnered numerous accolades and placed her at the forefront of scientific research.
| Occupation | Scientists |
|---|---|
| Date of Birth | May 4, 1985 |
| Age | 40 Years |
| Birth Place | Istanbul, Turkey |
| Horoscope | Taurus |
| Country | Turkey |
Popularity
Canan Dağdeviren's Popularity over time
Height, Weight & Measurements
While the exact personal measurements of Canan Dağdeviren remain private, her professional stature portrays her as a dynamic figure in the scientific field. Standing at approximately 5 feet 6 inches tall, she maintains a balanced and healthy lifestyle that reflects her energetic spirit.
Family, Dating & Relationship Status
Canan Dağdeviren tends to keep her personal life out of the public eye, focusing primarily on her work. While there is no confirmed information about her dating status as of 2025, there have been rumors of a potential boyfriend. However, without confirmation, her relationship status remains a subject of speculation. What is known is that she maintains close relationships with her family and is supported by a network of friends and colleagues in the science community.
Dagdeviren was drawn to scientific exploration from a very young age. In an interview with Discover Magazine, she recalls being fascinated by smashing rocks together and producing sparks, saying "I loved the idea that you deform this material and create sparks.
It was very exciting." Another source of inspiration came from a book that her father gave her on the life of Marie Curie.
She quickly became infatuated not just with Curie's work, but also with the research conducted by her husband Pierre Curie, who Dagdeviren considers her "scientific love." Pierre and his brother Jacques first described piezoelectricity in 1880, a concept that would later serve as the driving force behind many of Dagdeviren's own projects and applic
ations.
Net Worth and Salary
As of 2025, Canan Dağdeviren's net worth is estimated to be around $2 million. This figure reflects her successful career as a scientist and entrepreneur. Her salary varies depending on her research projects, speaking engagements, and investments, but her impressive contributions to science have undoubtedly contributed to her financial success.
Career, Business and Investments
Canan Dağdeviren's career has been marked by innovation and leadership. She gained international acclaim for her research on wearable technology and its applications in healthcare. Her groundbreaking work has led to the development of advanced biosensors, paving the way for new medical diagnostics.
In addition to her scientific endeavors, Dağdeviren is also an entrepreneur. She has invested in several startups focusing on technology and health, showcasing her commitment to nurturing innovation within her field. Her passion for science and technology contrasts with her entrepreneurial spirit, making her a role model for aspiring scientists and businesspeople alike.
Canan Dağdeviren (born May 4, 1985) is a Turkish academic, physicist, material scientist, and Associate Professor at the Massachusetts Institute of Technology (MIT), where she currently holds the LG Career Development Professorship in Media Arts and Sciences.
Dagdeviren is the first Turkish scientist in the history of the Harvard Society to become a Junior Fellow in the Society of Fellows at Harvard University. As a faculty member, she directs her own Conformable Decoders research group at the MIT Media Lab.
The group works at the intersection of materials science, engineering and biomedical engineering. They create mechanically adaptive electromechanical systems that can intimately integrate with the target object of interest for sensing, actuation, and energy harvesting, among other applications.
Dagdeviren believes that vital information from nature and the human body is "coded" in various forms of physical patterns. Her research focuses on the creation of conformable decoders that can "decode" these patterns into beneficial signals and/or energy.
Social Network
Canan Dağdeviren is active on various social media platforms, where she shares insights into her research, career achievements, and her views on science and technology. You can find her on platforms like Twitter, LinkedIn, and Instagram, where she engages with followers and fellow scientists. Her online presence is not only a reflection of her work but also serves to inspire others in the scientific community.
Most recently, Dagdeviren has built up an impressive repertoire of projects in wearable ultrasound technologies, both for sensing and actuation published in Science Advances.
Ultrasound modalities have enjoyed a long-standing tradition of being radiation-free, safe and effective on human tissue, but the design, form-factor and cost of ultrasound technologies has not changed from its original hand-held ‘wand-like’ embodiment of the 1970s.
Democratizing this technology—making it cheaper, better, more accessible, and ‘wearable’—has the potential to revolutionize the quality and quantity of medical data available for early diagnosis of disease. In particular, it is not feasible for current US transducers to perform accurate image reconstruction over large, curved areas.
The human breast presents a particular challenge, as its geometry and deformability are highly variable not only between subjects but also at different times and ages within a given subject.
Being at high risk of breast cancer herself, Canan has taken this challenge within her stride to develop a wearable ultrasound technology for longitudinal imaging of breast tissues or lesions both for cancer diagnostic and early detection purposes and to serve as a new non-invasive window into the biological behavior of a breast tumor.
With support from the NSF CAREER and 3M Non-Tenured Faculty awards that she received for this work, her goal is to make substantial scientific and leadership contributions to the emerging field of widely deployed biosensing tools, while achieving a broader understanding of soft tissue in a collective and systematic way for improved human health.
Dagdeviren's latest research boasts a soft, wearable ultrasound breast patch for early detection of breast cancer, inspired by her late aunt who passed away due to breast cancer. The device enables standardized and reproducible image acquisition over the entire breast with less reliance on operator training and applied transducer compression.
A nature-inspired honeycomb-shaped patch combined with a one-dimensional (1D) phased array transducer is guided by an easy-to-operate tracker that provides for large-area, deep tissue scanning and multi-angle breast imaging capability.
The results from the device have been cross validated with a commercial ultrasound probe and published in Nature Electronics.
The device has the potential to introduce interfaces that enable next-generation features of wearable technologies, such as accurate, autonomous monitoring of soft tissue for 3D imaging, and machine-learning strategies to detect breast tumor progression at competitive costs outside of a clinical setting.
Education
Canan Dağdeviren holds a degree in Electrical and Electronics Engineering from Istanbul Technical University. She later pursued her Master's degree and Ph.D. at the Massachusetts Institute of Technology (MIT), marking her as one of the few Turkish women to achieve such high honors in STEM fields. Her educational background has laid a solid foundation for her research and innovative contributions to science.
Her family is originally from Sivas. She is the oldest of three siblings, and has two younger brothers. Canan completed her primary education in İzmit, where she also attended middle school. However, her family was forced to leave the city after the 1999 İzmit earthquake, and she continued her high school education in Adana.
