Welcome to the Gu Lab
We develop acoustic and ultrasound technologies for imaging, manipulation, and diagnosis across biomedical and engineering systems. Our work integrates acoustics, ultrasound imaging, and machine learning to enable new approaches in disease diagnosis, drug delivery, and advanced manufacturing.
Areas of research
Acoustic wave control
- 3D field control
- Adaptive field
Acoustic device design
- Microfluidic chip
- Wearable device
Imaging/signal processing
- Quantitative imaging
- Computer vision/machine learning
Applied to: Advanced imaging, in vivo therapy, automated processing
Featured projects
Acoustic tweezers: Develop acoustic methods to manipulate small objects (such as cells, bacteria, or nanoparticles)
Acoustofluidics: Integrate acoustics, microfluidics, and micro/nanofabrication for biosample handling
Ultrasound imaging: Develop advanced ultrasound technique for structural or mechanical property imaging
Research openings
Our lab focuses on developing innovative theories, methods, and technologies to address fundamental scientific questions and real-world biomedical challenges.
We welcome students with backgrounds in engineering, physics, biomedical engineering, applied mathematics, or related fields. Successful candidates should be curious, self-motivated, and interested in interdisciplinary research. Interested candidates can email yuyang.gu@binghamton.edu with their CVs and brief outlines of their research interests aligning with our work.
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