Zahra Fakhraai
Physical Chemistry, Materials Chemistry, Nanoscale Science and Engineering
Physical Chemistry, Materials Chemistry, Nanoscale Science and Engineering
Organic and Bioorganic Chemistry
Bioinorganic, Bioorganic, Biophysical Chemistry
Development of Non-Aqueous Redox Flow Batteries for Grid-Scale Energy Storage
Lecture 3: Expanding the Materials Genome with Nanocombinatorics
Lecture 2: Spherical Nucleic Acids: Empowering the Digital Drug Design Revolution
Lecture 1: Colloidal Crystal Engineering with DNA: Creating a Genetic Code for Materials Design
Porous Polymers for Water Purification and Electrical Energy Storage
Abstract
Despite their ubiquity in consumer electronics, rare-earth metals are, as their name suggests, hard to come by. Mining and purifying them is an expensive, labor-intensive and ecologically devastating process. Schelter and his colleagues have devised a new, simple method for separating the two rare-earth metals that are commonly found in things like wind turbine generators and power tool motors, enabling them to be recycled into new products.