What would a chemical industry not based on fossil fuels look like?
Alex De Visscher
- Professor and Chair
- Department of Chemical and Materials Engineering
- Graduate Program Director:
- Graduate Certificate in Chemical Engineering
- Graduate Diploma in Chemical Engineering
- environmental chemistry10
- catalysis6
- chemical kinetics
- mathematical modeling13
- pollution21
- climate change35
- greenhouse gases6
- bioinspired oxidation chemistry2
- heat and mass transfer10
- CO2 utilization
- solubility
- photochemistry5
- ozone2
- hydrogen technology6
- air dispersion modeling
- green chemistry6
- degradation of environmental toxins5
- air quality6
- environmental engineering9
- environmental sustainability27
-
Chunjiang An
environmental engineering, decontamination, resource recovery from waste
-
Maria Elektorowicz
environmental engineering, groundwater, decontamination
-
Ashlee Howarth
metal–organic frameworks, porous materials, inorganic chemistry
-
Fariborz Haghighat
indoor environment, air quality, environmental engineering
-
Damon Matthews
climate change, climate science, climate policy
-
Yves Gélinas
chemical oceanography, climate change, carbon cycle
-
Saifur Rahaman
nanotechnology, nanocomposites, ultrafiltration membrane technology
-
Catherine Mulligan
environmental engineering, anaerobic wastewater treatment, heavy metals
-
Zhi Chen
environmental engineering, pollution, contaminated soil
-
Wahid Ghaly
gas turbine engines, aerodynamic inverse shape design, computational fluid dynamics
-
Pascale Biron
river dynamics, fish habitats, geomorphology
-
Hashem Akbari
cool roofs, urban heat islands, energy efficiency
-
David Walsh
aquatic ecology, molecular and cellular biology, evolutionary biology
-
Marek Majewski
inorganic chemistry, solar energy, renewable energy
-
Christine DeWolf
surfaces and interfaces, biochemistry of cell membranes, lipid monolayers as model systems
-
Dylan Fraser
salmon, adaptations to environmental change, hybridization
-
Xavier Ottenwaelder
bioinspired oxidation chemistry, catalysis in metalloenzymes, redox reactions
-
Leonard Sklar
geomorphology, watershed processes, climate change
-
Ali Nazemi
water security, climate change, coupled human-water systems
-
Selvadurai Daya Dayanandan
evolutionary genomics, molecular systematics, population genetics
-
Pat Forgione
organic chemistry, drug discovery, greener cross-coupling reactions
-
Angela Kross
applied satellite remote sensing, plant growth and development, climate change
-
Ketra Schmitt
risk analysis, systems models, technology policy
-
Grant Brown
behavioral ecology, chemical ecology, predator-prey dynamics
-
Paul Shrivastava
climate change, strategic management, corporate sustainability
-
Jeannine-Marie St-Jacques
climate change, paleoclimatology, hydrology
-
Justin Powlowski
environmental chemistry, biomass-degrading enzymes, bioremediation strategies
-
Liangzhu (Leon) Wang
airflow and thermal management, building security, safety and health, high-rise buildings
-
Carole El Ayoubi
gas turbine engines, computational fluid dynamics, turbine design
-
Alex Matveev
arctic methane, thermokarst lakes, biogeochemistry
-
Ida Karimfazli
complex fluids, fluid mechanics, heat and mass transfer
-
Anna-Liisa Aunio
environmental sustainability, urban agriculture, environmental sociology
-
Andreas Athienitis
building envelope performance, solar energy, smart cities
-
Rolf Wüthrich
gas evolving electrodes, glass micromachining, nanoparticle synthesis
-
Shannon Lloyd
life cycle assessment, sustainable development, industrial ecology
-
Jean-Philippe Lessard
community ecology, biogeography, macroecology
-
André G. Roy
fluvial geomorphology, river dynamics, climate change
