Ishtiaque Navid awarded Predoctoral Fellowship to support research impacting green energyNavid is exploiting III-Nitride nanostructures for artificial photosynthesis and next generation nanoscale optoelectronics.
From new material to device: Ferroelectric HEMT could be a game changer for next generation electronicsProf. Zetian Mi’s team proved the viability of a reconfigurable, ScAlN/AlGaN/GaN ferroelectric HEMT transistor that is critical for next-generation communication and computing systems
Ishtiaque Ahmed Navid awarded the Richard and Eleanor Towner Prize for Distinguished Academic AchievementNavid focuses on developing nanomaterials for artificial photosynthesis and optoelectronic devices.
Ishtiaque Navid receives SVCF Scholarship to support his research in semiconductor materialsNavid’s research is focused on artificial photosynthesis and optoelectronics using III-Nitride based semiconductor materials.
Arthur Xiao receives SVCF Scholarship to support his research in semiconductor materialsXiao has been working on several projects in Prof. Zetian’s Mi’s group, including micro LED technology and renewable energy.
Nanoscale ferroelectric semiconductor could power AI and post-Moore’s Law computing on a phoneNext-gen computing material gets down to the right size for modern manufacturing.
LNF Poster Winners announcedThe winning research focused on emitting white light with OLEDs, improving atomic layer deposition methods, and high efficiency green and red MicroLEDs for AR/VR.
Cheap, sustainable hydrogen through solar powerWithstanding high temperatures and the light of 160 suns, a new catalyst is ten times more efficient than previous sun-powered water-splitting devices of its kind.
Equity in the energy technology transition is new Institute’s goalThe Institute for Energy Solutions, which includes many ECE faculty, will continue U-M's 75-year legacy of leadership in energy research.
Prof. Zetian Mi selected as IEEE NTC Distinguished LecturerMi’s talk will focus on how to break the efficiency bottleneck of micro-LEDs and deep UV optoelectronics, critical to continued advances in virtual/augmented reality, water purification, sterilization, and more
Yakshita Malhotra honored for micro-LED research that could define the future of automotive displaysMalhotra’s work on micro-LEDs could lead to more efficient, higher resolution automotive displays capable of supporting augmented reality applications.
Zetian Mi elected Fellow of APSMi's pioneering contributions in III-nitride quantum nanostructures have contributed to the development of photonic and clean energy devices.
Breakthrough in green micro-LEDs for augmented/mixed reality devicesProf. Zetian Mi’s team are the first to achieve high-performance, highly stable green micro-LEDs with dimensions less than 1 micrometer on silicon, which can support ultrahigh-resolution full-color displays and other applications.
Solar-powered chemistry uses carbon dioxide and water to make feedstock for fuels, chemicalsProducing synthesis gas, a precursor of a variety of fuels and chemicals, no longer requires natural gas, coal or biomass.
Kamal Rudra awarded Laser Technology, Engineering and Applications Scholarship from SPIERudra, an ECE Master’s student, specializes in solid state and nanotechnology, and his work could help shape the future of AR/VR technologies.
Overcoming the efficiency cliff of red micro-LEDs for virtual/augmented realityProf. Zetian Mi leads a team that created highly-efficient red micro LEDs suitable for augmented and virtual reality.
Graphene-hBN breakthrough to spur new LEDs, quantum computingStudy uncovers first method for producing high-quality, wafer-scale, single-layer hexagonal boron nitride
Research full speed ahead on manufacturable III-V materials for next-generation electronicsA recent breakthrough in ferroelectric III-V semiconductors at the University of Michigan has been followed by several advancements and new funding to bring the technology closer to market.
Prof. Zetian Mi named IEEE Fellow for his pioneering contributions to III-nitride photonics and clean energyMi’s research is impacting the future of alternative energy, as well as improved methods for water purification and air disinfection.
$1.8M to develop room temperature, controllable quantum nanomaterialsThe project could pave the way for compact quantum computing and communications as well as efficient UV lamps for sterilization and air purification.
High Efficiency Ultraviolet Light Emitting Diodes to sterilize pathogens, including COVID-19Research led by Prof. Zetian Mi has been honored with the 2020 Editor-in-Chief Choice Award from "Photonics Research."
Dawn of nitride ferroelectric semiconductors for next-generation electronics
The ability to precisely tune electrical polarization switching through molecular beam epitaxy is a gamechanger
Artificial photosynthesis devices that improve themselves with use
"Our discovery is a real game-changer. I’ve never seen such stability."
Four ECE graduate students recognized by NSF Graduate Research Fellowship Program
Four ECE doctoral students were selected for their outstanding research work in a variety of disciplines.
Zetian Mi receives Research Excellence Award from the College of Engineering
Mi’s research offers the promise of sustainable energy and clean water through his breakthroughs in III-nitride quantum nanostructures.
$6.25 million to develop new semiconductors for artificial photosynthesis
An interdisciplinary team from four universities are developing a new class of semiconductors for novel artificial photosynthesis and the production of clean chemicals and fuels using sunlight, as part of a DoD MURI
Podcast: Artificial photosynthesis for sustainable solar fuels
In S1E1, Prof. Zetian Mi talks unlocking quantum properties to close the loop on carbon emissions.
Full-color nano-LEDs for better, longer lasting LED performance
Research led by Prof. Zetian Mi to advance LEDs for high-efficiency, high-performance displays is recognized with the Distinguished Paper Award from the Society for Information Display.
U-M startup NS Nanotech unveils new generation of LEDs for high-efficiency, high-performance displays
Brighter, crisper screens that draw half the power and lasts twice as long are possible with NS Nanotech’s next-gen LEDs.
Professors Jay Guo and Zetian Mi awarded MTRAC funding for research in autonomous and green vehicles
Guo is working to boost the visibility of autonomous cars for improved safety, and Mi is building a prototype solar hydrogen production system that could out-compete electric cars.
Prof. Zetian Mi selected as IEEE Photonics Society Distinguished Lecturer
Prof. Mi will speak about the advances in ultraviolet optoelectronics for improved disinfection and water purification.
Lights in the labs – and eyes – of researchers coming back to work
‘Noncritical’ in-person research begins ramping up, with public-health protocols.
‘Green methane’ from artificial photosynthesis could recycle CO2
A catalyst on a solar panel can make methane, the main component of natural gas, with carbon dioxide, water and sunlight.
Xianhe Liu receives Best Poster Award at ICNS 2019
The research impacts development of high-efficiency, micro LEDs, used in a variety of applications.
Photosynthesis and Clean Energy
Prof. Zetian Mi talks about a new way to create energy from the sun – borrowing from the idea of photosynthesis.
Blue Sky and Research Accelerator Initiatives fund solar fuel and high-power research
Blue Sky: Up to $10M toward research so bold, some of it just might fail
Inspired by startup funding models, Michigan Engineering reinvents its internal R&D grant structure.
Harvesting clean hydrogen fuel through artificial photosynthesis
New device doubles previous efficiency, opens path to commercial viability.
Deep UV LEDs lead to two best poster awards at ISSLED 2017
New techniques to construct deep UV LEDs prove prize-worthy.
Zetian Mi elected OSA Fellow
Mi recognized for his work with full-color LEDs and more
The Lurie Nanofabrication FacilityIt Takes the Best to Serve the Best.
Prof. Zetian Mi elected SPIE Fellow for contributions to photonic devices and artificial photosynthesis
Prof. Mi conducts research in the area of semiconductor optoelectronics, specifically in the areas of III-nitride semiconductors, low dimensional nanostructures, LEDs, lasers, Si photonics, artificial photosynthesis and solar fuels.
ECE welcomes new faculty
These faculty broaden and deepen ECE’s areas of expertise in robotics, ultra low power circuits, nanophotonics, information theory, and many other areas.