Alireza Ramyar awarded Rackham Predoctoral Fellowship for his research on power processing architectures for improved sustainabilityRamyar’s research focuses on how power and energy can be transformed, extracted from clean power generation, and stored effectively and sustainably.
Al-Thaddeus Avestruz receives CAREER Award to advance sustainable energy storageUsing retired electric vehicle batteries, the project plans to enable widespread and equitable access to sustainable power and energy through sustainable energy storage.
Sung Yul Chu wins IEEE Power Electronics Society PhD Thesis Talk AwardChu is recognized for his research on wireless power transfer for electric vehicle charging.
Xin Zan awarded Rackham Predoctoral Fellowship to advance research in wireless power transfer
Zan’s research on high frequency power converters for wireless power transfer has a wide range of applications
Best paper award for optimizing wireless power transfer
Prof. Al-Thaddeus Avestruz and PhD student Xin Zan were honored at the IEEE Energy Conversion Congress and Exposition for their work improving the efficiency and reliability of wireless power transfer.
Charging AheadWireless charging is already taking hold. But imagine charging your home appliances or even your car without a single wire. Rackham electrical engineering student Xin Zan is working to make that—and more—a reality.
Xin Zan wins the Towner Prize for his work advancing wireless power transfer
PhD student Xin Zan is helping to free the world from cords, which could advance implantable medical devices, autonomous electric vehicles, and consumer electronics.
Undergrad Michelle Gehner engineers better ways to explore new worlds
Gehner’s academic career includes advancing power electronics and crafting new extraterrestrial vehicles for MRover. She received the IEEE Power and Energy Society Scholarship for her promising future in power and energy.
Xin Zan wins two awards for wireless power transfer research
New research into implanted medical devices and peer-to-peer charging.
Solving the “Christmas light” problem so solar panels can handle shade
Just 10 percent shade cover can drop electricity production by 50 percent. A new U-M-led project aims to change that.