What kind of storage technologies will we need for the world to transition completely to renewable energy?
Marc-Antoni Goulet
- Assistant Professor
- Department of Chemical and Materials Engineering
- renewable energy35
- electrochemistry4
- energy storage8
- batteries/supercapacitors3
- flow batteries
- fuel cells4
- environmental sustainability32
- electrochemical devices2
- techno-economic analysis
- microfluidics9
- materials science42
- sustainable process engineering4
- organic chemistry7
- nanotechnology35
- analytical chemistry7
- electrosynthesis
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Xia Li
energy storage, materials science, nanoscience
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Karim Zaghib
energy storage, lithium-ion (Li-ion) batteries, batteries/supercapacitors
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Zhibin Ye
catalytic polymerization techniques, nanoparticle synthesis, energy storage
-
Nhat Truong Nguyen
photocatalysis, nanostructured catalysts, renewable energy
-
Rolf Wüthrich
gas evolving electrodes, glass micromachining, nanoparticle synthesis
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Ingo Salzmann
organic semiconductors, surfaces and interfaces, materials science
-
Marius Paraschivoiu
computational fluid dynamics, hydrogen technology, wind energy
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Pragasen Pillay
electrical machines and drives, electric vehicles, smart cities
-
Muthukumaran Packirisamy
micro/nano devices, microfabrication, MEMS/NEMS
-
Pantcho Stoyanov
tribology, aerospace, thermally-sprayed coatings
-
Steve Shih
microfluidics, synthetic biology, biofuels and biochemicals
-
Jung Kwon (John) Oh
biomedical engineering, materials science, biomacromolecules
-
Yves Gélinas
chemical oceanography, climate change, carbon cycle
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Christine DeWolf
surfaces and interfaces, biochemistry of cell membranes, lipid monolayers as model systems
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Laszlo Kalman
renewable energy, photosynthesis, biophysics
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Truong Vo-Van
light, optical properties of nanomaterials, functional thin films
-
Robin A. L. Drew
materials science, light metal foams, biomedical engineering
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Pablo Bianucci
light-matter interactions, optical microresonators, light-emitting nanostructures
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Martin D. Pugh
composites, materials science, surface engineering
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Mehdi Hojjati
composites, automated fibre placement (AFP), industry 4.0
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Christian Moreau
surface engineering, nanotechnology, thermally-sprayed coatings
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Nathan Brown
poetry, poetics, critical theory
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Rafik Naccache
nanoscience, carbon quantum dots, plasmonic nanoparticles
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Ida Karimfazli
complex fluids, fluid mechanics, heat and mass transfer
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Chunjiang An
environmental engineering, decontamination, resource recovery from waste
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Akshay Kumar Rathore
power electronics, power systems control, electric vehicles
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Ahmed Soliman
sustainable development, durability of concrete, materials science
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Sana Jahanshahi-Anbuhi
biosensors, biomarkers and diagnostics, bioactive paper devices (µPADs)
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Marek B. Majewski
inorganic chemistry, solar energy, renewable energy
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Sébastien Robidoux
organic chemistry, critical thinking, active learning pedagogy
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Hany Gomaa
fluid mechanics, microfluidics, complex fluids
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Cameron D. Skinner
gestational diabetes, amniotic fluid bioanalysis, bioanalytical chemistry
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Louis A. Cuccia
supramolecular chemistry, protein-protein interactions, bioinspired engineering
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Paula Wood-Adams
polymer science, rheology, viscoelasticity
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Michelle Nokken
durability of concrete, urban infrastructure, design for sustainability
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Luiz A.C. Lopes
high power converters, renewable energy, distributed power generation
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Abdel R. Sebak
millimeter-wave antennas, millimeter-wave imaging, phased array antennas
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Suong Van Hoa
nanocomposites, industry 4.0, materials science
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Mamoun Medraj
materials characterization, thermodynamics of materials, metals
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John Capobianco
lanthanide-doped nanoparticles, magnetic nanoparticles, luminescence
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Valter Zazubovits
biophysics, solar energy, photosynthesis
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Ivan Kantor
circular economy, climate change, energy efficiency
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Alexandre Champagne
condensed matter physics, nanoelectronics, graphene
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Mojtaba Kahrizi
nanosystems, quantum devices, MEMS/NEMS
