UC Berkeley Engineering
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UC Berkeley's College of Engineering.
Educating leaders. Creating knowledge. Serving society.
Educating leaders. Creating knowledge. Serving society.
Their findings revealed life-threatening disruptions that could potentially be mitigated through a combination of more resilient healthcare and transportation infrastructure.
How a major Bay Area earthquake could endanger healthcare access - Berkeley Engineering
Study shows that damage to hospitals and transportation networks could compound failures across the region
bit.ly
November 7, 2025 at 12:15 AM
Their findings revealed life-threatening disruptions that could potentially be mitigated through a combination of more resilient healthcare and transportation infrastructure.
As reported in Nature Communications, researchers led by Luis Ceferino, assistant professor of civil and environmental engineering, simulated a major earthquake in the San Francisco Bay Area, then studied its impact on access to acute care hospitals.
How a major Bay Area earthquake could endanger healthcare access - Berkeley Engineering
Study shows that damage to hospitals and transportation networks could compound failures across the region
bit.ly
November 7, 2025 at 12:15 AM
As reported in Nature Communications, researchers led by Luis Ceferino, assistant professor of civil and environmental engineering, simulated a major earthquake in the San Francisco Bay Area, then studied its impact on access to acute care hospitals.
“By using organ-on-a-chip models to predict heart-targeted delivery and safety,” Healy said, “we can potentially accelerate programs for heart failure therapeutics, cardioprotective factors and gene correction, while reducing time and cost to translation.”
Read our story: bit.ly/4qEeK87
Read our story: bit.ly/4qEeK87
Heart-on-a-chip may lead to new treatments for heart failure - Berkeley Engineering
Model helps identify nanoparticles that can deliver mRNA directly into heart muscle cells
bit.ly
November 3, 2025 at 6:40 PM
“By using organ-on-a-chip models to predict heart-targeted delivery and safety,” Healy said, “we can potentially accelerate programs for heart failure therapeutics, cardioprotective factors and gene correction, while reducing time and cost to translation.”
Read our story: bit.ly/4qEeK87
Read our story: bit.ly/4qEeK87
Made possible through the generosity of brothers Roger and Hans Strauch, trustees of the Mosse Foundation, and the creative vision of sculptor Susan Narduli.
October 26, 2025 at 3:57 AM
Made possible through the generosity of brothers Roger and Hans Strauch, trustees of the Mosse Foundation, and the creative vision of sculptor Susan Narduli.
He created a field called reticular chemistry, which involves stitching together molecular building blocks to form porous structures with myriad applications.
He split the prize with Richard Robson of the University of Melbourne, Australia, and Susumu Kitagawa of Kyoto University, Japan.
He split the prize with Richard Robson of the University of Melbourne, Australia, and Susumu Kitagawa of Kyoto University, Japan.
UC Berkeley’s Omar Yaghi shares 2025 Nobel Prize in Chemistry - Berkeley News
Yaghi created a field called reticular chemistry, which involves stitching together molecular building blocks to form porous structures — metal-organic frameworks (MOFs) — with myriad applications.
news.berkeley.edu
October 8, 2025 at 6:03 PM
He created a field called reticular chemistry, which involves stitching together molecular building blocks to form porous structures with myriad applications.
He split the prize with Richard Robson of the University of Melbourne, Australia, and Susumu Kitagawa of Kyoto University, Japan.
He split the prize with Richard Robson of the University of Melbourne, Australia, and Susumu Kitagawa of Kyoto University, Japan.