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Lithium ion batteries are quintessential components of modern life. They are used to power smart devices — phones, tablets, laptops, and are rapidly becoming major elements in the automotive industry. Demand projections for lithium are skyrocketing with production struggling to keep up pace. This drive is due mostly to the

Lithium ion batteries are quintessential components of modern life. They are used to power smart devices — phones, tablets, laptops, and are rapidly becoming major elements in the automotive industry. Demand projections for lithium are skyrocketing with production struggling to keep up pace. This drive is due mostly to the rapid adoption of electric vehicles; sales of electric vehicles in 2020 are more than double what they were only a year prior. With such staggering growth it is important to understand how lithium is sourced and what that means for the environment. Will production even be capable of meeting the demand as more industries make use of this valuable element? How will the environmental impact of lithium affect growth? This thesis attempts to answer these questions as the world looks to a decade of rapid growth for lithium ion batteries.

ContributorsMelton, John (Author) / Brian, Jennifer (Thesis director) / Karwat, Darshawn (Committee member) / Chemical Engineering Program (Contributor) / Barrett, The Honors College (Contributor)
Created2021-05
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When an individual is conceived there is a metaphorical roll of the dice. A game of chance is played with their genetics to which they cannot consent. Unlucky players could have inherited mild conditions such as chronic allergies to terrible diseases such as Cystic Fibrosis or Tay-Sachs. Controlling the genetics

When an individual is conceived there is a metaphorical roll of the dice. A game of chance is played with their genetics to which they cannot consent. Unlucky players could have inherited mild conditions such as chronic allergies to terrible diseases such as Cystic Fibrosis or Tay-Sachs. Controlling the genetics of an individual through the use of gene editing technology could be the key to ending this cycle of genetic diseases. Once detrimental diseases are now being cured through direct applications of genetic engineering. Even as we see the uses of genetic engineering technologies change the world, the more “sci-fi” applications have yet to be fully realized or explored. Editing hereditary genes before birth may have the ability to eliminate diseases from entire genetic lines, reduce the possibility for certain cancers and diseases, and perhaps even modify phenotypes in humans to create enhanced humans. Although this scientific field shows promise, it does have its reservations. Like any other scientific field, its ability to benefit humanity depends on its use.
ContributorsSchuler, Jacob (Co-author) / Silva, Anthony (Co-author) / Brian, Jennifer (Thesis director) / Ross, Christian (Committee member) / Harrington Bioengineering Program (Contributor) / School of Life Sciences (Contributor) / Barrett, The Honors College (Contributor)
Created2020-05