Featured Post from University of Delaware

From spacesuits to style icons: University of Delaware fashion grads make their mark on the industry

May 14, 2025

2 min

Sheng Lu
CaptionResizeWrap TextRemove


One of the best measures of a college program is where their alums land after graduation and beyond. In addition to the impressive list of soon-to-be degree holders who have already landed excellent jobs, the University of Delaware's fashion and apparel studies program can boast a roster of alums who now have prominent positions with some of the industry's most iconic companies as well as major retailers. Faculty at UD can talk about the materials that make up the proverbial fabric of their hidden gem of a program on the campus in Newark, Delaware.


A quick snapshot of what some of the alums are up to:

• Two students who have developed materials for space programs, including one who developed spacesuit textiles for future lunar missions.

• A fashion merchandising graduate degree holder who now is a point person for sustainability at Tapestry, the home of iconic brands like Coach and Kate Spade.

• High ranking executive at Target Brands.

• An alum with a resume that includes Ralph Lauren and now Steve Madden.

• Textile assistant with The Kasper Group, whose portfolio includes Nine West, Anne Klein, Kasper, Le Suit and Jones New York.


Among this year's graduates is a star field hockey player from Argentina who landed a job at fashion retailer Moda Operandi; an award-winning student who will continue her pursuit of "changing the world" and making the fashion industry more sustainable as a graduate student at UD; and an entrepreneurship minor who paired her experience playing volleyball with design research that resulted in more comfortable apparel for athletes.


To speak to one of these past or future graduates, contact mediarelations@udel.edu. Faculty from the program are also available for interviews: Huantian Cao, professor and department chair; Sheng Lu, professor and graduate director; and Brenda Shaffer, associate chair and undergraduate director.

Connect with:
Sheng Lu

Sheng Lu

Professor, Fashion and Apparel Studies

Prof. Lu's research focuses on the economic and business aspects of the global textile and apparel industry.

Textile and Apparel IndustryFashion apparel supply chainInternational TradeSustainability IssuesTrade Policy
Powered by

You might also like...

Check out some other posts from University of Delaware

2 min

The science behind the blood moon: Understanding this lunar phenomenon ahead of march's event

March's celestial event – a blood moon – is just around the corner. This captivating lunar spectacle isn't just a cool sight to behold; it has some neat science backing it up. The blood moon phenomenon happens during a total lunar eclipse. "During a total lunar eclipse, the only light that reaches the surface of the moon is refracted through the Earth's atmosphere, which essentially acts like a lens. Light is a wave, and every color of the rainbow has a different wavelength – red the longest and violet the shortest," said Bennett Maruca, associate professor of physics and astronomy at the University of Delaware.  What adds to the excitement is the rare nature of total lunar eclipses. While partial eclipses occur more frequently, a full blood moon isn't an everyday event. Depending on where you live, the blood moon may only grace the night skies a few times a decade. "One of my favorite things about total lunar eclipses is that it's hard to know ahead of time quite what it will look like. The moon can take on a color ranging from burnt orange to red to grayish brown," he said. "The closer the Moon passes to the center of Earth's shadow, the darker the color will be."  Maruca is available to speak about the event, which takes place in the wee hours of March 3. He can discuss when to wake up to see the phenomenon and how to best capture it.  "For photographing the moon, I would recommend a camera with some optical zoom – the moon is only about 0.5 degrees across. Because of the low lighting conditions, a tripod or other support would be helpful since a longer exposure time will be needed," he noted.  He has appeared in a number of outlets including Mashable and The Philadelphia Inquirer. He can be contacted by clicking on his profile.  ABOUT BENNET MARUCA Bennett Maruca serves as an associate professor in the University of Delaware's department of physics and astronomy. His research focuses on the sun, the solar wind and other space plasmas. He is a recipient of the Antarctic Service Medal and NASA's Silver Achievement Medal. He also serves as an associate director of the Delaware Space Grant Consortium and is currently mentoring over twenty undergraduate students developing experiments to fly into space to observe Earth's ionosphere.

2 min

Solving for X: Expert highlights importance of algebra in middle and high school

Math educators agree that Algebra is a critical course for middle and high schoolers, often serving as a gateway to more advanced math courses and influencing students’ academic trajectories in STEM pathways. Yet, many students struggle in this important course. Since May 2025, University of Delaware Associate Professor Erica Litke has partnered with the University of Pennsylvania Graduate School of Education and the School District of Philadelphia in a $5 million, three-year initiative to improve algebra teaching in the district. The project offers algebra teachers professional development through a year-long fellowship. With expertise in improving instructional quality in math and supporting algebra teaching, Litke leads the design and delivery of the professional development with Penn GSE experts. Close to 80 teachers participated in the first cohort of the fellowship, which includes a four-day summer institute. Litke’s research in math education has connected instructional quality to broader policy issues in education and focused on teacher knowledge and professional development. “The focus on algebra content and key features of algebra teaching that support students in learning algebra content helps teachers translate their learning from the fellowship directly into their teaching practice,” said Litke. “Being able to translate my research findings into usable knowledge for teachers and contribute to the design of this kind of comprehensive professional learning has been really exciting.” Litke can speak to her role in the Algebra Fellowship project, the importance of Algebra 1 in the trajectory of students’ STEM education and strategies for supporting teaching learning at the school and district levels. ABOUT ERICA LITKE Erica Litke is an associate professor specializing in mathematics education in the School of Education at the University of Delaware. Her research focuses on understanding and improving instructional quality in mathematics for students in the elementary and secondary grades. Her research has described and analyzed instructional practice in mathematics using observation instruments, connected instructional quality in mathematics to broader policy-related issues in education, and focused on teacher knowledge and professional development. She has appeared in The Philadelphia Inquirer, Daily Pennsylvanian and other publications. To speak with Litke or to learn more, email mediarelations@udel.edu.

2 min

Discovery pinpoints potential Achilles’ Heel in HIV, opening new frontier in drug development

Scientists have long known that detecting HIV early is crucial in slowing and treating the virus. During the acute stage of infection, a single human cell can produce as many as 10,000 new HIV particles. A discovery led by the University of Delaware's Juan Perilla offers hope: A new drug target early in the virus's life cycle that could save millions of lives. In the surprising discovery, published Feb. 18 in Nature, Perilla and collaborators in the U.S. and the United Kingdom, have revealed a previously unknown role for the viral protein integrase. Scientists already knew that integrase helps HIV insert itself into human DNA. But this new study provides the first direct evidence that integrase plays a critical structural role earlier on in HIV’s life cycle — when the virus matures into an infectious force. Using high-resolution cryo-electron microscopy (cryo-EM), the research team – which also included UD doctoral student Juan S. Rey – found that integrase proteins form gluey filaments that line the inside of the capsid. Each segment of the filament slots neatly into the capsid’s hexagon-shaped tiles, while gripping tightly to HIV’s RNA genome. This zipper-like arrangement organizes and packs the virus, preparing it to hijack a cell and start making copies of itself. “Integrase plays a structural role inside the HIV capsid — nobody expected that,” Perilla said. “This protein forms filaments that anchor the RNA to the capsid. Without these filaments, the virus is non-infective.” Seeing inside HIV is no small feat. The capsid is only about 120 nanometers wide —roughly 1/800th the thickness of a human hair. It is incredibly small, fragile, densely packed and constantly changing, Perilla said. To reveal its hidden architecture, the researchers relied on deep collaboration and a combination of sophisticated microscopy, molecular modeling and experimentation. Read more about the science behind the study here. “The thing with HIV is that people are chronically living with it,” Perilla said. “Treatments are effective, but patients always need new therapeutics. We want to help develop the next generation of inhibitors and hope to have a significant contribution.” To reach Perilla directly and arrange an interview, visit his profile page. Interested reporters can also email MediaRelations@udel.edu.

View all posts
Powered by