News
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Designing an Interlocking Biodegradable Drug-Eluting Left Atrial Appendage Occlusion Device
This project designs and develops an interlocking biodegradable drug-eluting left atrial appendage (LAA) occlusion device to reduce stroke risk in patients with atrial fibrillation.
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Displacement per Atom Ab Initio Molecular Dynamics Driven Selection of Novel Crystal Fusion Components
A materials science student created a computational modeling of varied cesium monolayer coverages on bulk molybdenum undergoing surface collisions in fusion-relevant conditions.
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Identifying Phenotypes of Early-Onset Heart Failure in Women
This Precision Medicine Team is discovering phenotypes of early onset heart failure in women.
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Optimizing Food Systems for Health, Affordability, and Sustainability
Students developed a multi-objective optimization model to design affordable, nutritious, and environmentally sustainable food bundles in the U.S. and Argentina. Their work highlights the tradeoffs between cost, nutrition, and emissions, and demonstrates how data-driven approaches can inform more equitable food systems.
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Realistic Phantoms Point of Care Neonatal Ultrasound Training
The team is using polymers to create high-quality phantoms – or physical models — that could be used in the ultrasound training process, simulating neonatal conditions and structures a doctor would face.
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Rehabilitation of a Southwest Baltimore Rowhome
Civil engineering students design a stabilization plan to preserve a historic façade and create a community gathering space in Southwest Baltimore.
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MRI Motion Platform
Students developed a novel MRI-compatible motion platform to simulate patient head movement during brain scans. The motion platform will provide training data for motion correction algorithms being developed at Kennedy Krieger.
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Civil and systems engineering seniors design community-centered solutions for their capstone course
Applying knowledge from their undergraduate programs, students are using engineering to address real Baltimore neighborhood needs and will present their final projects at Johns Hopkins Whiting School of Engineering’s annual Design Day on April 28
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Clear-eyed canine: Cell sorting device aims to improve treatment for dogs with blindness
A team of biomedical engineering undergraduate students is developing a cell sorting device that could restore vision for canines suffering from corneal edema, a condition that can cause blindness
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Engineering for a Climate-Resilient Fells Point
JHU students design flood and energy solutions for bustling waterfront neighborhood.
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Threading the needle to greater weight loss less invasively
Senior Design team shrinks stomach non-surgically using tiny needles
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Pace perfect: A student-built marathon optimization platform
Johns Hopkins students have developed a new data-driven tool to help long-distance runners clock a personal record.
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First-year mechanical engineers’ minicars battle it out on racetrack
The annual first-year design competition displays a vast array of automotive engineering approaches.
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Blue Hydrogen from Steelmaking Off-gas: a Techno-economic Feasibility Assessment
Turning steelmaking’s carbon-rich off-gas into blue hydrogen, our team’s integrated process converts ≥97 % of CO to H₂, captures ≥95 % of the CO₂, and recovers heat to generate on-site power—delivering clean fuel and revenue from a single waste stream.
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CryoExtract Streamling Tissue Retrieval in Lung Cryobiopsy
The CryoExtract Design Team created a low-cost, workflow-friendly device that has proven to significantly improve speed and sample quality in real patient procedures, earning them a recent presentation to executives from the Erbe company that they plan on working with to manufacture the next generation of cryoprobe kits.
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Design and Optimization of the Separated Interface Nerve Electrode for a Freeform Stimulator in Vestibular Restoration
In collaboration with the Machine Biointerface Lab in the Department of Otolaryngology, the team developed a hydrogel-elastomer based Separated Nerve Interface Electrode (SINE) designed to safely deliver ionic direct current (iDC).
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Act Fast: Assessing hemorrhagic shock in pediatric patients
Student engineers in the Johns Hopkins Biomedical Engineering Design Team program have invented a new system to detect hemorrhagic shock early in traumatically injured children.
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NeuroFilm, An implantable Electrospun Substrate for Muscle Stimulation and EMG Recording
NeuroFilm, an implantable electrospun substrate designed for muscle stimulation and EMG recording.
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Hard-Core Batteries
To make solid-state batteries tougher, a materials science and engineering student is rethinking what goes into the cathode—and how it holds up under pressure
