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The soul of an artist, the mind of a mathematician
A rainbow-colored swirl.

Image: Courtesy of Robert Ghrist

The soul of an artist, the mind of a mathematician

An artist, author, engineer, mathematician, and mentor, PIK Professor in the School of Arts & Sciences and the School of Engineering and Applied Science Robert Ghrist embraces innovation to enrich each of these roles.

8 min. read

New 3D-printing enables color-changing, stress-responsive materials for smart sensing, displays, and robotics
A Penn engineering student holds up an array of different structures made with a new, 3D-printed material

Alicia Ng, a Ph.D. student in materials science and engineering holds up an array of different structures made with a new, 3D-printed material that changes color when stretched.

(Image: Penn Engineering Today)

New 3D-printing enables color-changing, stress-responsive materials for smart sensing, displays, and robotics

Penn engineers have developed a transparent silicone shell to preserve cholesteric liquid crystal elastomers—color-changing materials that can respond to mechanical stress—while supporting intricate 3D designs.

Melissa Pappas

2 min. read

How MLR@Penn supports student AI researchers

How MLR@Penn supports student AI researchers

Machine Learning Research @ Penn prepares undergraduates for research by discussing academic papers in small groups, much like book clubs would dissect a novel.

Ian Scheffler

2 min. read

Penn engineers first to train AI at lightspeed
Tianwei Wu (left) and Liang Feng (right) demonstrating some of the apparatus used to develop the new, light-powered chip.

Tianwei Wu (left) and Liang Feng (right) demonstrating some of the apparatus used to develop the new, light-powered chip.

(Image: Sylvia Zhang)

Penn engineers first to train AI at lightspeed

Penn engineers have developed the first photonic chip that reshapes how light behaves to carry out the nonlinear mathematics at the heart of modern AI while reducing energy use.

Ian Scheffler

2 min. read

Improving AI and machine learning
(From left) Zachary Ives, Zixuan Yi, and Ryan Marcus.

Zixuan Yi with advisers Zachary Ives (left) and Ryan Marcus.

(Image: Sylvia Zhang)

Improving AI and machine learning

Zixuan Yi, a doctoral student in computer and information science, bridges the gap between learning methods and real-world system constraints utilizing artificial intelligence and machine learning.

From Penn Engineering

1 min. read

Penn students develop AI-driven solution to transform senior care
Nami Lindquist, Melanie Herbert, and Alex Popescu

Melanie Herbert (center), a fourth-year in the School of Engineering and Applied Science, created Sync Labs—an innovative AI solution that addresses caregiving in senior care. Joined by Nami Lindquist (left) of the Wharton School and Penn Engineering and Alex Popescu of Penn Engineering (right) their technology, which has earned them the 2025 President’s Innovation Prize, allows caregivers to see three times more seniors while providing more personalized care.

nocred

Penn students develop AI-driven solution to transform senior care

Fourth-year students Melanie Herbert, Nami Lindquist, and Alexandra Popescu were awarded the President’s Innovation Prize for Sync Labs, a privacy-centered AI system to address the growing caregiving gap in senior care

8 min. read

Microrobots navigate diverse oral environments to deliver therapies

Microrobots navigate diverse oral environments to deliver therapies

Penn Engineers and clinicians at the Center for Innovation & Precision Dentistry are developing shapeshifting microrobots capable of navigating the complex environments of the mouth to deliver targeted treatments.

Armoring CAR T cells to take on cancer
3D visualization showing a reddish-blue tumor mass with internal vasculature, surrounded by blue CAR T cells and small extracellular vesicles against a dark background.

Wei Guo of the School of Arts & Sciences and colleagues from the Perelman School of Medicine, School of Veterinary Medicine, and School of Engineering and Applied Science have teamed up to uncover how solid tumors’ complicated microenvironments can manipulate cancer-fighting CAR T cells through extracellular vesicles, causing the engineered CAR T cells to commit fratricide—essentially turning against each other instead of attacking the cancer.

(Image: iStock / Marcin Klapczynski)

Armoring CAR T cells to take on cancer

Wei Guo of the School of Arts & Sciences and colleagues from the Perelman School of Medicine, School of Veterinary Medicine, and School of Engineering and Applied Science have uncovered how solid tumors manipulate cancer-fighting CAR T cells through extracellular vesicles, causing the engineered CAR T cells to commit fratricide—essentially turning against each other instead of attacking the cancer.

3 min. read