CBEE faculty and students are highlighted for their innovative and impactful work in the areas of 'Climate and Environment' and 'Health and Life Sciences' in the inaugural issue of Inquiring Minds: UMBC Research and Creative Achievement.
Front Page (bottom right)
Matthew Stromberg, Environmental Engineering PhD student, under the guidance of advisors Dr. Upal Ghosh, professor of chemical, biochemical and environmental engineering and Dr. Yonathan Zohar, professor of marine biotechnology.
Global Leadership in Sustainable Aquaculture Research - Page 1
Matthew Stromberg's work with Dr. Yonathan Zohar, professor of marine biotechnology, on land-based aquaculture is highlighted. Dr. Zohar has been a driving force behind decades of research into land-based aquaculture, which has taken off in the U.S. and abroad in recent years. These operations produce fish for human consumption in land-based facilities that are less susceptible to disease and result in fresher fish for locals. They also remove the risk of releasing waste or farmed fish into the environment and reduce costs and the carbon footprint associated with shipping. Plus, they create jobs and help decrease American reliance on seafood imports.
Centering Communities in Climate Action - Page 3
Dr. Claire Welty, professor of chemical, biochemical and environmental engineering, is featured for her leadership role in the Baltimore Social-Environmental Collaborative (BSEC), a project funded by the U.S. Department of Energy to address urban environmental challenges. Welty and her UMBC colleagues received $2.3 million of the $24.5 million grant awarded to the BSEC. The project aims to generate solutions to environmental concerns through community engagement and collaboration with organizations in three American cities. The team brings decades of experience in environmental monitoring and has received awards from the U.S. Forest Service and the National Science Foundation to support their work. Welty emphasizes the importance of partnering with local communities to address their needs and concerns and finding effective ways to implement solutions. She describes the project as a giant puzzle to put together and looks forward to seeing how it all unfolds.
Developing Nanoparticles That Stop Internal Bleeding - Page 17
The groundbreaking work conducted by Dr. Erin Lavik, professor of chemical, biochemical and environmental engineering and Dr. Nuzhat Maisha, Ph.D. '21, chemical and biochemical engineering and colleagues to develop nanoparticles that can stop internal bleeding is highlighted in the story on page 17.
The article discusses the challenges of controlling bleeding in trauma patients and the need for faster delivery of medication to control the bleeding. The researchers developed a novel approach to modifying the surfaces of nanoparticles used in lifesaving medications to provide infusions that can be delivered more quickly and with a reduced risk of negative reactions.
The article goes into detail about the researchers' findings and how they focused on the core material of the nanoparticles to reduce infusion reactions, which limit the treatments available to patients. The article also discusses how this groundbreaking research lays the groundwork for future testing of preclinical models using nanocapsules to stop internal bleeding.
Read full articles: Inquiring Minds: UMBC Research and Creative Achievement.