News by Faculty
By Cannibalizing Nearby Stromal Stem Cells, Some Breast Cancer Cells Gain Invasion Advantage
Cancer biologists and engineers collaborated on a device that could help predict the likelihood of breast cancer metastasis.
Solar cells enable self-powered camera
A solar cell combined with a camera sensor collects photons to provide electricity.
COMBAT team receives Ted Kennedy Family Faculty Team Excellence Award
The group brought together experts in radar and remote sensing, integrated circuits, imaging, navigation, power, communications, and nano-fabrication.
Euisik Yoon presents the 2017 LNF User Symposium keynote address
The keynote was titled, “Biointerface Technologies: Where Engineering Meets Science and Medicine.”
New funding for high-fidelity nerve mapping research
SPARC awarded $1M to a U-M project developing better nerve mapping.
$7.75M for mapping circuits in the brain
A new NSF Tech Hub will put tools to rapidly advance our understanding of the brain into the hands of neuroscientists.
‘Sister cell’ profiling aims to shut down cancer metastasis
Michigan engineers release individual cells from a specially-designed chip using laser pulses.
The Lurie Nanofabrication FacilityIt Takes the Best to Serve the Best.
2017 EECS Outstanding Achievement Awards
The Michigan Probe: Changing the Course of Brain Research
Some believed early Michigan brain researchers were engaging in “science fiction” – until development of an advanced tool for forging breakthroughs proved them wrong.
Cancer stem cells: new method analyzes 10,000 cells at once
A new tool for making sense of the cells believed to cause cancer relapses and metastases.
Students seek the secrets of the brain in study abroad program
IPAN sent eight undergraduates to Germany for a month of lab work, learning about the intricacies of the brain.
Leaders in neuroscience look to the future
ICAN bring engineers and neuroscientists together to review the recent advancement in neurotechnology and neuroscience, define the need for next-generation tools, and enhance the translation of technology to the scientific community.
Novel collaboration to probe brain activity in unprecedented detail
A pilot program will bring together researchers from different universities to collaborate on advancing research that may lead to a better understanding of the human brain.
Mapping the brain: probes with tiny LEDs shed light on neural pathways
The new probes can control and record the activity of many individual neurons, and are believed to be the smallest implantable LEDs ever made.
$5M for international neurotechnology “dream team”
A “dream team” of experts in sensors, electronics, data analysis and neuroscience has been awarded a $5 million grant to help unravel the mysteries of the brain and cross-train a group of internationally-connected neuroscientists and engineers.
What makes cancer cells spread? New device offers clues
Why do some cancer cells break away from a tumor and travel to distant parts of the body? A team of oncologists and engineers from the University of Michigan teamed up to help understand this crucial question.
Mapping the brain with lasers
Yoon is leading a team that will design new light sources with lasers capable of zooming in on individual neuron circuits within the brain.
Biochips for better cancer therapy
One promising area of cancer treatment is photodynamic therapy, which combines the agents of a photosensitive drug, light, and oxygen.
Neural Probe Research recognized with Best Paper Award at 2013 Transducers Conference
“We present a novel strategy to scale up the number of electrodes with minimized risk.”
Super-fine sound beam could one day be an invisible scalpel
“We believe this could be used as an invisible knife for noninvasive surgery,” Guo said. “Nothing pokes into your body, just the ultrasound beam.”
A minimally-invasive brain implant to translate thoughts into movement
The implant is called the BioBolt, and unlike other neural interface technologies that establish a connection from the brain to an external device such as a computer, it’s minimally invasive and low power.