From Digital Thermometers to Fighting Climate Change - Timothy Lo

McMaster University
2024
Thermoelectric Materials Research
Waste Heat Recovery
Seebeck Effect Applications
Climate Change Technology
Energy Recycling Systems
Thermoelectric Energy Conversion
sustainable materials engineering
Heat To Electricity
Material Efficiency Optimization
Skutterudite Thermoelectrics
clean energy materials
Low Carbon Technology

This research explores thermoelectric materials that can convert wasted heat into electricity, offering a promising tool against climate change. Inspired by digital thermometers, the work focuses on improving efficiency, stability, safety, and scalability of these materials. The long-term goal is to make energy recycling practical, alongside reducing and reusing energy.

Hydrogen and Pancakes: The Recipe for a Sustainable Future - Tess Seip

University of Toronto
2025
hydrogen production electrolysis
catalyst pore structure
clean energy materials
water electrolysis efficiency
nanoscale pores catalysts
X-ray imaging materials science
hydrogen fuel research
renewable energy technology
catalyst design optimization
energy materials engineering
electrochemical catalysis
sustainable fuel hydrogen

This research improves hydrogen production by optimizing the pore structure of catalysts used in water electrolysis. Using X-ray imaging and modeling, it identifies how nanoscale pore size and distribution affect water interaction and efficiency. Better-designed catalysts could reduce costs and accelerate clean hydrogen as a sustainable alternative to fossil fuels.

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