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Documents dont l'auteur est "Mohammadi, Mahmood"

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Nombre de documents: 38

Article de revue

Nofar, M., Mohammadi, M., & Carreau, P. (2021). Nanoclay Migration and the Rheological Response of PBAT/LDPE Blends. International Polymer Processing, 36(3), 287-296. Lien externe

Tokárová, V., Perumal, A. S., Nayak, M., Shum, H., Kaspar, O., Rajendran, K., Mohammadi, M., Tremblay, C., Gaffney, E. A., Martel, S., & Nicolau, D. V. (2021). Patterns of bacterial motility in microfluidics-confining environments. Proceedings of the National Academy of Sciences of the United States of America, 118(17), e201392511 (12 pages). Lien externe

Felfoul, O., Mohammadi, M., Taherkhani, S., de Lanauze, D., Xu, Y. Z., Lafleur, M., Gaboury, L., Tabrizian, M., Vuong, T., Batist, G., Beauchemin, N., Radzioch, D., & Martel, S. (2018). Encapsulation d'agents chimiothérapeutiques dans des nanoliposomes portés par des bactéries magnéto-aérotactiques: ciblage des régions hypoxiques tumorales. M/S Médecine Sciences, 34(3), 197-199. Lien externe

Loghin, D., Tremblay, C., Mohammadi, M., & Martel, S. (2017). Exploiting the responses of magnetotactic bacteria robotic agents to enhance displacement control and swarm formation for drug delivery platforms. International Journal of Robotics Research, 36(11), 1195-1210. Lien externe

Martel, S., & Mohammadi, M. (2016). Switching between magnetotactic and aerotactic displacement controls to enhance the efficacy of MC-1 magneto-aerotactic bacteria as cancer-fighting nanorobots. Micromachines, 7(6), 1-12. Disponible

Felfoul, O., Mohammadi, M., Taherkhani, S., de Lanauze, D., Zhong Xu, Y., Loghin, D., Essa, S., Jancik, S., Houle, D., Lafleur, M., Gaboury, L., Tabrizian, M., Kaou, N., Atkin, M., Vuong, T., Batist, G., Beauchemin, N., Radzioch, D., & Martel, S. (2016). Magneto-aerotactic bacteria deliver drug-containing nanoliposomes to tumour hypoxic regions. Nature Nanotechnology, 11(11), 941-947. Lien externe

Martel, S., Taherkhani, S., Tabrizian, M., Mohammadi, M., de Lanauze, D., & Felfoul, O. (2014). Computer 3D controlled bacterial transports and aggregations of microbial adhered nano-components. Journal of Micro-Bio Robotics, 9(1-2), 23-28. Lien externe

Taherkhani, S., Mohammadi, M., Daoud, J., Martel, S., & Tabrizian, M. (2014). Covalent binding of nanoliposomes to the surface of magnetotactic bacteria for the synthesis of self-propelled therapeutic agents. ACS Nano, 8(5), 5049-5060. Lien externe

De Lanauze, D., Felfoul, O., Turcot, J.-P., Mohammadi, M., & Martel, S. (2014). Three-dimensional remote aggregation and steering of magnetotactic bacteria microrobots for drug delivery applications. International Journal of Robotics Research, 33(3), 359-374. Lien externe

Viger, J.-F., Mohammadi, M., Barriault, D., & Sylvestre, M. (2012). Metabolism of chlorobiphenyls by a variant biphenyl dioxygenase exhibiting enhanced activity toward dibenzofuran. Biochemical and Biophysical Research Communications, 419(2), 362-367. Lien externe

Kumar, P., Mohammadi, M., Dhindwal, S., Pham, T. T. M., Bolin, J. T., & Sylvestre, M. (2012). Structural insights into the metabolism of 2-chlorodibenzofuran by an evolved biphenyl dioxygenase. Biochemical and Biophysical Research Communications, 421(4), 757-762. Lien externe

Dhindwal, S., Patil, D. N., Mohammadi, M., Sylvestre, M., Tomar, S., & Kumar, P. (2011). Biochemical Studies and Ligand-bound Structures of Biphenyl Dehydrogenase from Pandoraea pnomenusa Strain B-356 Reveal a Basis for Broad Specificity of the Enzyme. Journal of Biological Chemistry, 286(42), 37011-37022. Disponible

Martel, S., Mohammadi, M., Felfoul, O., Lu, Z., & Pouponneau, P. (2009). Flagellated magnetotactic bacteria as controlled MRI-trackable propulsion and steering systems for medical nanorobots operating in the human microvasculature. International Journal of Robotics Research, 28(4), 571-582. Lien externe

Martel, S., Felfoul, O., Mathieu, J.-B., Chanu, A., Tamaz, S., Mohammadi, M., Mankiewicz, M., & Tabatabaei, N. (2009). MRI-Based Medical Nanorobotic Platform for the Control of Magnetic Nanoparticles and Flagellated Bacteria for Target Interventions in Human Capillaries. International Journal of Robotics Research, 28(9), 1169-1182. Lien externe

Barriault, D., Lepine, F., Mohammadi, M., Milot, S., Leberre, N., & Sylvestre, M. (2004). Revisiting the regiospecificity of burkholderia xenovorans LB400 biphenyl dioxygenase toward 2,2′-dichlorobiphenyl and 2,3,2′,3′-tetrachlorobiphenyl. Journal of Biological Chemistry, 279(46), 47489-47496. Disponible

Communication écrite

Majedi, Y., Loghin, D., Mohammadi, M., & Martel, S. (juillet 2017). Characterizations of magnetotactic bacteria conjugated versus unconjugated with carboxylate-Functionalized superparamagnetic iron oxide nanoparticles for tumor targeting purposes [Communication écrite]. International Conference on Manipulation, Automation and Robotics at Small Scales (MARSS 2017), Montréal, Québec (6 pages). Lien externe

Gagné, K., Tremblay, C., Majedi, Y., Mohammadi, M., & Martel, S. (juillet 2017). Indirect MPI-based detection of superparamagnetic nanoparticles transported by computer-controlled magneto-aerotactic bacteria [Communication écrite]. International Conference on Manipulation, Automation and Robotics at Small Scales (MARSS 2017), Montréal, Québec (5 pages). Lien externe

Martel, S., Mohammadi, M., Lanauze, D. , & Felfoul, O. (décembre 2013). Magnetotactic bacteria as dispatched oxygen sensors [Communication écrite]. 7th International Conference on Sensing Technology (ICST 2013), Wellington, New Zealand. Lien externe

Afkhami, F., Taherkhani, S., Mohammadi, M., & Martel, S. (août 2011). Encapsulation of magnetotactic bacteria for targeted and controlled delivery of anticancer agents for tumor therapy [Communication écrite]. 33rd Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC 2011), Boston, MA, United states. Lien externe

Felfoul, O., Mohammadi, M., & Martel, S. (mai 2011). In vivo magnetotactic bacteria targeting [Communication écrite]. 6th International Conference on Microtechnologies in Medicine and Biology, Lucerne, Switzerland. Non disponible

Martel, S., & Mohammadi, M. (juin 2011). Towards mass-scale micro-assembly systems using magnetotactic bacteria [Communication écrite]. ASME International Manufacturing Science and Engineering Conference (MSEC 2011), Corvallis, OR, United states. Lien externe

Felfoul, O., Mohammadi, M., Gaboury, L., & Martel, S. (septembre 2011). Tumor targeting by computer controlled guidance of magnetotactic bacteria acting like autonomous microrobots [Communication écrite]. IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2011), San Francisco, CA, United states. Lien externe

Felfoul, O., Mokrani, N., Mohammadi, M., & Martel, S. (août 2010). Effect of the chain of magnetosomes embedded in magnetotactic bacteria and their motility on Magnetic Resonance imaging [Communication écrite]. 32nd Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC 2010), Buenos Aires, Argentina. Lien externe

Khoshbakht Marvi, E., Mokrani, N., Mohammadi, M., & Martel, S. (avril 2010). Impact of the geometrical features of micro-components in bacterial micro-assemblies [Communication écrite]. 5th International Conference on MicroManufacturing, Madison, Wisconsin. Lien externe

Mokrani, N., Felfoul, O., Zarreh, F. A., Mohammadi, M., Aloyz, R., Batist, G., & Martel, S. (août 2010). Magnetotactic bacteria penetration into multicellular tumor spheroids for targeted therapy [Communication écrite]. 32nd Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC 2010), Buenos Aires, Argentina. Lien externe

Tremblay, C. C., Jean, J., Marchand, L., Turki, A., Chouinard-Gaouette, P., Brousseau, M., Mohammadi, M., & Martel, S. (octobre 2010). Robotic platform for real-time tracking of a single fast swimming bacterium [Communication écrite]. International Symposium on Optomechatronic Technologies, Toronto, ON (5 pages). Lien externe

Martel, S., Mohammadi, M., & Mokrani, N. (février 2010). Switching between magnetic or oxigen sensory input for the MC-1 flagellated bacteria to be used for controlling the motion of swarms of bacterial microscale nanorobots [Communication écrite]. 1st Global Congress on NanoEngineering for Medicine and Biology (NEMB 2010), Houston, Texas. Lien externe

Khoshbakht Marvi, E., Mohammadi, M., & Martel, S. (juin 2010). Using a swarm of bacteria as actuator for propelling microrobots [Communication écrite]. 12th International Conference on New Actuators, Bremen, Germany. Non disponible

Martel, S., & Mohammadi, M. (mai 2010). Using a Swarm of Self-propelled Natural Microrobots in the Form of Flagellated Bacteria to Perform Complex Micro-assembly Tasks [Communication écrite]. IEEE International Conference on Robotics and Automation (ICRA 2010), Anchorage, Alaska. Lien externe

Martel, S., & Mohammadi, M. (octobre 2009). A robotic micro-assembly process inspired by the construction of the ancient pyramids and relying on several thousand flagellated bacteria acting as micro-workers [Communication écrite]. IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS 2009). Lien externe

Mokrani, N., Mohammadi, M., & Martel, S. (avril 2009). Towards faster bacterial micro-actuators [Communication écrite]. 5th International Conference on Microtechnologies in Medicine and Biology, Québec, Canada. Non disponible

Martel, S., André, W., Mohammadi, M., & Lu, Z. (mai 2009). Towards swarms of communication-enable and intelligent sensotaxis-based bacterial microrobots capable of collective tasks in an aqueous medium [Communication écrite]. IEEE International Conference on Robotics and Automation (ICRA 2009), Kobe, Japan. Lien externe

Martel, S., Felfoul, O., & Mohammadi, M. (octobre 2008). Flagellated bacterial nanorobots for medical interventions in the human body [Communication écrite]. 2nd IEEE/RAS & EMBS International Conference on Biomedical Robotics and Biomechatronics (BioRob 2008), Scottsdale, AZ, USA. Lien externe

Martel, S., Felfoul, O., Mohammadi, M., & Mathieu, J.-B. (août 2008). Interventional procedure based on nanorobots propelled and steered by flagellated magnetotactic bacteria for direct targeting of tumors inthe human body. [Communication écrite]. 30th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC 2008), Vancouver, B.C.. Lien externe

Martel, S., & Mohammadi, M. (octobre 2007). High throughput controlled bacterial transport using geometrical fluidic microchannels of 3D microfibers structures [Communication écrite]. 11th International Conference on Miniaturized Systems for Chemistry and Life Science, Paris, France. Non disponible

Felfoul, O., Mohammadi, M., & Martel, S. (août 2007). Magnetic resonance imaging of Fe₃O₄ nanoparticles embedded in living magnetotactic bacteria for potential use as carriers for in vivo applications. [Communication écrite]. 29th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC 2007), Lyon, France. Lien externe

Mankiewicz, M., Mohammadi, M., & Martel, S. (octobre 2007). Motion tracking and analysis system for magnetotactic bacteria [Communication écrite]. International Symposium on Optomechatronic Technologies, Lausanne, Switzerland. Lien externe

Présentation

Taguet, A., Mohammadi, M., Heuzey, M.-C., & Carreau, P. (octobre 2021). Polymer Blend Nanocomposites Based on Cellulose Nanocrystals (CNC) [Présentation]. Dans 7th International Polysaccharide Conference (EPNOE 2021), Nantes, France. Lien externe

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