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Documents dont l'auteur est "Ghafar-Zadeh, Ebrahim"

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Nombre de documents: 42

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Ghannoum, A., Ghafar-Zadeh, E., & Sawan, M. (2014). Image processing system dedicated to a visual intra-cortical stimulator. IET Image Processing, 8(12), 846-855. Lien externe

Ghafar-Zadeh, E., Gholamzadeh, B., Awwad, F., & Sawan, M. (août 2012). On-chip electroporation: Characterization, modeling and experimental results [Communication écrite]. 34th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBS 2012), San Diego, CA, United states. Lien externe

Ghafar-Zadeh, E., & Sawan, M. (2010). CMOS Capacitive Sensors for Lab-on-Chip applications : a multidisciplinary approach. Lien externe

Ghafar-Zadeh, E., & Sawan, M. (2010). CMOS capactive sensors for lab-on-chip applications : A multidisciplinary approach. Lien externe

Ghafar-Zadeh, E., Chowdhury, S. F., Aliakbar, A., Chodavarapu, V., Lumbroso, R., Beitel, L. K., Sawan, M., & Trifiro, M. (2010). Erratum: Handheld impedance biosensor system using engineered proteinaceous receptors. Biomedical Microdevices, 12(6), 1107-1107. Lien externe

Ghafar-Zadeh, E., Chowdhury, S. F., Aliakbar, A., Chodavarapu, V., Lambrose, R., Beital, L., Sawan, M., & Trifiro, M. (2010). Handheld impedance biosensor system using engineered proteinaceous receptors. Biomedical Microdevices, 12(6), 967-975. Lien externe

Ghafar-Zadeh, E., & Sawan, M. (2010). Microfluidic Packaging Process. Dans CMOS Capacitive Sensors for Lab-on-Chip Applications (p. 91-118). Lien externe

Ghafar-Zadeh, E., Sawan, M., & Therriault, D. (2009). CMOS based capacitive sensor laboratory-on-chip: A multidisciplinary approach. Analog Integrated Circuits and Signal Processing, 59(1), 1-12. Lien externe

Ghafar-Zadeh, E., Sawan, M., Therriault, D., Rajagopalan, S., & Chodavarapu, V. P. (2009). A direct-write microfluidic fabrication process for CMOS-based lab-on-chip applications. Microelectronic Engineering, 86(10), 2104-2109. Lien externe

Ghafar-Zadeh, E., Sawan, M., & Chodavarapu, V. P. (juin 2008). Micro-Organism-on-Chip: Emerging direct-write CMOS-Based platform for biological applications [Communication écrite]. 14th IEEE International Mixed-Signals, Sensors, and Systems Test Workshop (IMS3TW), Vancouver, B.-C.. Publié dans IEEE Transactions on Biomedical Circuits and Systems, 3(4). Lien externe

Ghafar-Zadeh, E., Sawan, M., & Therriault, D. (2009). A microfluidic packaging technique for lab-on-chip applications. IEEE Transactions on Advanced Packaging, 32(2), 410-416. Lien externe

Ghafar-Zadeh, E., Sawan, M., & Therriault, D. (2008). A 0.18-μm CMOS capacitive sensor Lab-on-Chip. Sensors and Actuators A: Physical, 141(2), 454-462. Lien externe

Ghafar-Zadeh, E., Sawan, M., Shabani, A., Zourob, M., & Chodavarapu, V. (juin 2008). Bacteria growth monitoring through an on-chip capacitive sensor [Communication écrite]. 14th IEEE International Mixed-Signals, Sensors, and Systems Test Workshop (IMS3TW 2008). Lien externe

Ghafar-Zadeh, E., & Sawan, M. (juin 2008). A charge based sigma delta capacitive sensor for ultrathin polyelectrolyte layer detection [Communication écrite]. Joint IEEE North-East Workshop on Circuits and Systems and TAISA Conference (NEWCAS-TAISA 2008), Montréal, Québec. Lien externe

Ghafar-Zadeh, E., & Sawan, M. (2008). Charge-Based Capacitive Sensor Array for CMOS-Based Laboratory-on-Chip Applications. IEEE Sensors Journal, 8(4), 325-232. Lien externe

Ghafar-Zadeh, E., & Sawan, M. (2008). A Core-Cbcm Sigma Delta Capacitive Sensor Array Dedicated to Lab-on-Chip Applications. Sensors and Actuators A: Physical, 144(2), 304-313. Lien externe

Ghafar-Zadeh, E., & Sawan, M. (mai 2008). Toward fully integrated CMOS based capacitive sensor lab-on-chip. [Communication écrite]. IEEE International Workshop on Medical Measurement and Applications (MEMEA 2008), Ottawa, Canada. Lien externe

Ghafar-Zadeh, E., & Sawan, M. (septembre 2007). A 0.18 µm CMOS Capacitive Detection Lab-on-Chip [Communication écrite]. 29th Annual IEEE Custom Integrated Circuits Conference (CICC 2007), San Jose, CA, United states. Lien externe

Ghafar-Zadeh, E., Sawan, M., Hajj-Hassan, M., & Miled, A. (août 2007). A CMOS based microfluidic detector: Design, calibration and experimental results [Communication écrite]. 50th IEEE Midwest Symposium on Circuits and Systems (MWSCAS 2007), Montréal, Québec. Lien externe

Ghafar-Zadeh, E., & Sawan, M. (mai 2007). A CMOS-based capacitive sensor for laboratory-on-chips: Design and experimental results [Communication écrite]. IEEE International Symposium on Circuits and Systems (ISCAS 2007), New Orleans, Louisiana. Lien externe

Ghafar-Zadeh, E. (2007). Hybrid microfluidic CMOS capacitive sensors for lab-on-chip applications [Thèse de doctorat, École Polytechnique de Montréal]. Disponible

Ghafar-Zadeh, E., & Sawan, M. (2007). A hybrid microfluidic/CMOS capacitive sensor dedicated to lab-on-chip applications. IEEE Transactions on Biomedical Circuits and Systems, 1(4), 270-277. Lien externe

Ghafar-Zadeh, E., Sawan, M., & Therriault, D. (2007). Novel Direct-Write Cmos-Based Laboratory-on-Chip: Design, Assembly and Experimental Results. Sensors and Actuators A: Physical, 134(1), 27-36. Lien externe

Ghafar-Zadeh, E., & Sawan, M. (octobre 2006). Charge based capacitive sensor array for CMOS based laboratory on-chip applications [Communication écrite]. 5th IEEE International Conference on Sensors, Daegu, Korea (South). Lien externe

Ghafar-Zadeh, E., & Sawan, M. (mai 2006). CMOS based bioparticle capacitive sensor integrated with direct-write microfluidic devices [Communication écrite]. Canadian Conference on Electrical and Computer Engineering (CCECE 2006), Ottawa, Ontario. Lien externe

Ghafar-Zadeh, E., Sawan, M., & Therriault, D. (mai 2006). Direct-write CMOS-based Laboratory-On-Chip [Communication écrite]. NSTI Nanotechnology Conference and Trade Show (NSTI Nanotech 2006), Boston, USA. Non disponible

Ghafar-Zadeh, E., Rajagopalan, S., & Sawan, M. (août 2006). Flexible biochemical sensor array for environmental laboratory-on-chip applications [Communication écrite]. International Workshop on Computer Architecture for Machine Perception and Sensing (CAMP 2006), Montréal, Québec. Lien externe

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Hajj-Hassan, M., Gonzalez, T., Ghafar-Zadeh, E., Djeghelian, H., Chodavarapu, V., Andrews, M., & Therriault, D. (2008). Direct-Dispense Polymeric Waveguides Platform for Optical Chemical Sensors. Sensors, 8(12), 7636-7648. Disponible

Hajj-Hassan, M., Gonzalez, T., Djeghelian, H., Ghafar-Zadeh, E., Therriault, D., Chodavarapu, V., & Andrews, M. (janvier 2008). Direct-write patterning of nanostructured sensory waveguides for integrated optical bioimaging applications [Communication écrite]. Nanoscale Imaging, Sensing, and Actuation for Biomedical Applications V, San Jose, CA, United states. Lien externe

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Mohammadi, H. M., Ghafar-Zadeh, E., & Sawan, M. (2012). An Image Processing Approach for Blind Mobility Facilitated Through Visual Intracortical Stimulation. Artificial Organs, 36(7), 616-628. Lien externe

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Nabovati, G., Ghafar-Zadeh, E., Letourneau, A., & Sawan, M. (2019). Smart Cell Culture Monitoring and Drug Test Platform Using CMOS Capacitive Sensor Array. IEEE Transactions on Biomedical Engineering, 66(4), 1094-1104. Lien externe

Nabovati, G., Ghafar-Zadeh, E., Letourneau, A., & Sawan, M. (2017). Towards high throughput cell growth screening: A new CMOS 8 x 8 biosensor array for life science applications. IEEE Transactions on Biomedical Circuits and Systems, 11(2), 380-391. Lien externe

Nabovati, G., Ghafar-Zadeh, E., Letourneau, A., & Sawan, M. (mai 2016). CMOS capacitive sensor array for continuous adherent cell growth monitoring [Communication écrite]. IEEE International Symposium on Circuits and Systems (ISCAS 2016), Montréal, Québec. Lien externe

Nabovati, G., Ghafar-Zadeh, E., Letourneau, A., & Sawan, M. (mai 2016). Live demonstration: CMOS capacitive sensor array for real-time analyses of living cells [Communication écrite]. IEEE International Symposium on Circuits and Systems (ISCAS 2016), Montréal, Québec. Lien externe

Nabovati, G., Ghafar-Zadeh, E., & Sawan, M. (mai 2016). A novel multifunctional integrated biosensor array for simultaneous monitoring of cell growth and acidification rate [Communication écrite]. IEEE International Symposium on Circuits and Systems (ISCAS 2016), Montréal, Québec. Lien externe

Nabovati, G., Ghafar-Zadeh, E., & Sawan, M. (mai 2015). A 64 pixel ISFET-based biosensor for extracellular pH gradient monitoring [Communication écrite]. IEEE International Symposium on Circuits and Systems (ISCAS 2015), Lisbon, Portugal. Lien externe

Nabovati, G., Ghafar-Zadeh, E., Mirzaei, M., Ayala-Charca, G., Awwad, F., & Sawan, M. (2015). A new fully differential CMOS capacitance to digital converter for lab-on-chip applications. IEEE Transactions on Biomedical Circuits and Systems, 9(3), 353-361. Lien externe

Nabovati, G., Ghafar-Zadeh, E., Mirzaei, M., Ayala-Charca, G., Awwad, F., & Sawan, M. (juin 2014). Fully integrated CMOS capacitive sensor for Lab-on-Chip applications [Communication écrite]. IEEE International Symposium on Circuits and Systems (ISCAS 2014), Melbourne, Australie. Lien externe

Nabovati, G., Ghafar-Zadeh, E., & Sawan, M. (juin 2014). Novel DC-Input ΣΔ Capacitance-to-Digital Convertor for Biosensor Applications [Communication écrite]. 12th IEEE International New Circuits and Systems Conference (NEWCAS 2014), Trois-Rivières, QC, Canada. Lien externe

Nabovati, G., Ghafar-Zadeh, E., Awwad, F., & Sawan, M. (juin 2013). A sigma delta ISFET readout circuit for lab-on-chip applications [Communication écrite]. 11th IEEE International New Circuits and Systems Conference (NEWCAS 2013), Paris, France. Lien externe

Nabovati, G., Ghafar-Zadeh, E., Awwad, F., & Sawan, M. (août 2012). Fully digital low-power self-calibrating BPSK demodulator for implantable biosensors [Communication écrite]. 55th IEEE International Midwest Symposium on Circuits and Systems (MWSCAS 2012), Boise, Idaho, USA. Lien externe

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Rajagopalan, S., Sawan, M., Ghafar-Zadeh, E., Savadogo, O., & Chodavarapu, V. (2008). A Polypyrrole-based Strain Sensor Dedicated to Measure Bladder Volume in Patients with Urinary Dysfunction. Sensors, 8(8), 5081-5095. Disponible

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