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Contact Information 

Department of Mechanical and Mechatronics Engineering

University of À¶Ý®ÊÓƵ
200 University Avenue West
À¶Ý®ÊÓƵ, Ontario N2L 3G1
Canada

Office: E3 3171
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Phone: +1 (226)881-1533

Biographical Information

2017: [MSc. Mechanical Engineering, Iran University of Science & Technology, Tehran, Iran]

2013: [BSc. Automotive Engineering, Iran University of Science & Technology, Tehran, Iran]

Research Interests

• Wearable sensors
• Flexible electronics
• Digital manufacturing
• Smart materials and structures
• Multi-material additive fabrication

Thesis Supervisor(s)

• Professor Peng Peng

Publications

• Nankali, M.; Rouhi, M.; Jones, J.; Rathod, S.; Peng, P. Fiber Laser Writing of Highly Sensitive Nickel Nanoparticle-Incorporated Graphene Strain Sensors. ACS Applied Materials & Interfaces 2024, 16 (30), 39835-39846.
• Nankali, M.; Amindehghan, M. A.; Seyed Alagheband, S. H.; Montazeri Shahtoori, A.; Seethaler, R.; Nouri, N. M.; Milani, A. S. Highly Sensitive, Stretchable, and Adjustable Parallel Microgates-Based Strain Sensors. Advanced Materials Technologies 2024, 2400071.
• Haghgoo, M.; Ansari, R.; Jang, S.-H.; Hassanzadeh-Aghdam, M. K.; Nankali, M. Developing a high-efficiency predictive model for self-temperature-compensated piezoresistive properties of carbon nanotube/graphene nanoplatelet polymer-based nanocomposites. Composites Part A: Applied Science and Manufacturing 2023, 166, 107380.
• Haghgoo, M.; Ansari, R.; Hassanzadeh-Aghdam, M. K.; Tian, L.; Nankali, M. Analytical formulation of the piezoresistive behavior of carbon nanotube polymer nanocomposites: the effect of temperature on strain sensing performance. Composites Part A: Applied Science and Manufacturing 2022, 163, 107244.
• Haghgoo, M.; Ansari, R.; Hassanzadeh-Aghdam, M. K.; Nankali, M. A novel temperature-dependent percolation model for the electrical conductivity and piezoresistive sensitivity of carbon nanotube-filled nanocomposites. Acta Materialia 2022, 230, 117870.
• Nankali, M.; Nouri, N. M.; Malek, N. G.; Amjadi, M. Dynamic thermoelectromechanical characterization of carbon nanotube nanocomposite strain sensors. Sensors and Actuators A: Physical 2021, 332, 113122.
• Amindehghan, M. A.; Nankali, M.; Nouri, N. M. Data-Driven Modeling and Characterization of Carbon Nanotube Nanocomposite Strain Sensors for Human Health Monitoring Applications. In 2021 9th RSI International Conference on Robotics and Mechatronics (ICRoM), 2021; IEEE: pp 561-567.
• Nankali, M.; Nouri, N. M.; Navidbakhsh, M.; Malek, N. G.; Amindehghan, M. A.; Shahtoori, A. M.; Karimi, M.; Amjadi, M. Highly stretchable and sensitive strain sensors based on carbon nanotube–elastomer nanocomposites: the effect of environmental factors on strain sensing performance. Journal of Materials Chemistry C 2020, 8 (18), 6185-6195.
• Nankali, M.; Nouri, N.; Geran Malek, N.; Sanjari Shahrezaei, M. Electrical properties of stretchable and skin–mountable PDMS/MWCNT hybrid composite films for flexible strain sensors. Journal of Composite Materials 2019, 53 (21), 3047-3060.
• Haghgoo, M.; Ansari, R.; Hassanzadeh-Aghdam, M. K.; Nankali, M. Analytical formulation for electrical conductivity and percolation threshold of epoxy multiscale nanocomposites reinforced with chopped carbon fibers and wavy carbon nanotubes considering tunneling resistivity. Composites Part A: Applied Science and Manufacturing 2019, 126, 105616.
• Nankali, M.; Geran Malek, N. Evaluation of non-linear Effects in Piezoresistive PDMS/MWCNT Sensing Elements. In 2018 2th Biennial International Conference on Experimental Solid Mechanics (X-Mech), 2018; 739235.

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