Ameer Nizami:
My inspiration
![The lithium sulfide adsorbate molecules, shown in purple and yellow, dance as energy is released and stored during the charging and discharging processes.](/content/concordia/en/gradstudies/professional-development/public-scholars/profiles/ameer-nizami/my-inspiration/_jcr_content/content-main/grid_container_1636475739/grid-container-parsys/image.img.jpg/1718124756273.jpg)
How can computational predictions guide the optimization of the interface design of lithium-sulfur battery cathodes?
Ever since I participated in my first Earth Day, I became deeply concerned about the effects of climate change and the long-term impact on our planet. This concern drove my passion for science throughout my teenage years. While pursuing my bachelor's degree in engineering, I became acutely aware of the constantly growing global demand for renewable energy and efficient energy storage solutions to alleviate our dependency on fossil fuels. The potential of lithium-sulfur batteries to revolutionize energy storage systems and significantly reduce carbon emissions fueled my curiosity and commitment to dedicate my research efforts to battery technology.