This thesis encompasses several nanotechnology approaches in formulating chemotherapy agents and their application across various cancers, including breast, ovarian, pancreatic, lung, and prostate.

I will demonstrate how combining concepts learned from the last decade of plastic pollution research with established material selection practices resulted in a quantitative, multi-dimensional framework for use during product design to minimize the environmental impacts of plastic.

Join Chair and Professor Rebecca Willits of the Chemical Engineering Department as she provides updates and information about classes and the department of Chemical Engineering.

In this talk, I will introduce a series of optimal control technologies that contribute to smarter and more efficient systems, enhancing their sustainability.

This talk will illustrate how fundamental chemical engineering concepts and methods applied to soils can make important contributions towards a more sustainable future.

In this seminar, I will present my work showcasing the power of RNA and nanotechnology in manipulating microbial interactions with the environment and plant hosts.

I will demonstrate that by designing an enzyme to fuse to a solid support material, we can vastly improve its stability and recover the material between reactions for multiple uses.

In this talk, I will share examples from our work on the computational discovery and design of functional materials, as well as modeling of defect and doping properties of semiconductors.

Fireside Chat on the Power of Psychological Safety with Award-Winning Engineer and Industry Consultant Dr. Mark McBride-Wright and Northeastern’s College of Engineering Dean Gregory Abowd. Learn how inclusivity in the […]

With respect to the design of green solvents, this talk will illustrate how Bara and collaborators are utilizing molecules with glycerol “skeletons” to tackle challenges in CO2 capture (including direct air capture (DAC)), batteries, plastic wastes, additive manufacturing, and extractions of lithium and other critical materials from dilute sources.