Martin Bolduc

Page personnelle

• 2014-2015  Graduate Certificate, Printed Electronics and Functional Imaging, California Polytechnic State University
• 2005-2006  Postdoctorat, Materials Science and Engineering, Massachusetts Institute of Technology
• 2003-2005  Postdoctorat, Matrerials Science and Engineering, State university of New York
• 1998-2003  Doctorat, Sciences des matériaux, INRS-Énergie, Matériaux et Télécommunications
• 1995-1998  Baccalauréat, Physique, UQTR Université du Québec à Trois-Rivières

• Capteurs intelligents
• Fabrication d'électroniques flexibles
• Impression 3D et matériaux fonctionnels 
• Procédés photoniques et par impulsion laser
• Études et modélisations thermodynamiques 
• Matériaux optiques

Brevets

• H. Oulachgar, M. Bolduc, P. Mauskopf, H. Jerominek, and C. Alain, Uncooled Microbolometer Detector and Array For Terahertz Detection, US Patent 9261411 (2015). 
• V.P. Labella, M. Bolduc, C. Awo-affouda, M.B. Huang, Above room temperature ferromagnetic silicon. US Patent 7405086 (2008) 

Chapîtres de livre

• B.N. Altay, M. Bolduc, and S.G. Cloutier, Sustainable Advanced Manufacturing of Printed Electronics: An Environmental Consideration, Green Energy and Environment, IntechOpen Book 1-19 (2020)

Articles

• M. Bolduc, M. Poirier, P. Laperle, M. Leclerc, C. Trudeau, P. Beaupre, T. Tiwald, J. Bouchard, and P. Galarneau, Broadband Tunable Passive Nanocellulose-Based Optical Polarizer, Advanced Optical Materials, submitted (2022).
• B.N. Altay, B. Aksoy, D. Banerjee, D. Maddipatla, P.D. Fleming, M. Bolduc, S.G. Cloutier, and M. Demir, Lignin-Derived Carbon-Coated Functional Paper for Printed Electronics, ACS Applied Electronic Materials. 3(9): 3904-3914 (2021).
  
• B.N. Altay, V.S. Turkani, L.F. Gerlein, P.D. Fleming, M.Z. Atashbar, M. Bolduc, and Sylvain G. Cloutier, One-step photonic curing of screen-printed conductive Ni flake electrodes for flexible electronics, Scientific Reports. 11: 3393 (2021)
  
• C. Trudeau, P. Beaupré, M. Bolduc, and S.G. Cloutier,  All inkjet-printed perovskite-based bolometers. NPJ Flexible Electronics. 4: 34 (2020).
  
• M. Zhuldybina, X. Ropagnol, C. Trudeau*, M. Bolduc, R.J. Zednik, and F. Blanchard, Contactless in situ electrical characterization method of printed electronic devices with terahertz spectroscopy. Sensors 19: 444.(2019).
  
• M. Bolduc, C. Trudeau, P. Beaupré, S.G. Cloutier and P. Galarneau. . Thermal Dynamic Effects using Pulse-Shaping Laser Sintering of Printed Silver Inks. Scientific Report. 8: 1418 (2018).
  
• C. Trudeau, M. Bolduc, P. Beaupré, J. Benavides-Guerrero, B. Tremblay, and S.G. Cloutier.  Inkjet-Printing of Methylammonium Lead Trihalide Perovskite as Active Layers for Optoelectronic Devices. MRS Advances. 3: 1837 (2018).
• C. Trudeau, M. Bolduc, P. Beaupré, P. Topart, C. Alain, and S.G. Cloutier, Inkjet-Printed Flexible Active Multilayered Structures. MRS Advances. 2: 1015 (2017).
• M. Bolduc, M. Poirier, J. Bouchard, and P. Galarneau, Surface Modification of Nanocrystalline Cellulose toward a Flexible Tunable Optical Polarizer. MRS Advances. 1: 651 (2016).
• H. Oulachgar, M. Bolduc, G. Chauve, Y. Desroches, and P. Galarneau, Fabrication and Electro-Optical Characterization of a Nanocellulose-Based Spacial Light Modulator, MRS Advances. 1: 631 (2016).
• D. Dufour, L. Marchese, M. Terroux, H. Oulachgar, M. Bolduc, C. Alain, A. Bergeron, Review of terahertz technology development at INO. Journal of Infrared, Millimeter and Terahertz Waves. 36: 922 (2015).