Solid-State Devices and Nanotechnology

Anjali Devi Sivakumar awarded Barbour Scholarship to support her research on analytical wearables for health monitoring

Sivakumar is developing analytical devices to measure and analyze insensible, or vapor, sweat for disease diagnosis.

Shubham Mondal awarded Rackham Predoc to support research on III-Nitride semiconductors for next generation electronics

Mondal’s materials research is expected to impact fields such as data centric computing, edge intelligence, and quantum photonic devices.

Auto industry deadlines loom for impaired-driver detection tech, U-M offers a low-cost solution

As the comment period closes on the new federal requirement, a U-M team led by Prof. Mohammed Islam demonstrates that upgrades to current technologies could do the job

Jiangnan Liu receives SVCF Scholarship to support research in quantum photonics

Liu is a PhD student investigating new materials for future opportunities in quantum photonics.

Shubham Mondal receives SVCF Scholarship to support his research in semiconductor materials

Mondal works to improve the operation of electronic and optoelectronic devices using III-Nitride based semiconductor materials.

Wei Lu named James R. Mellor Professor of Engineering

Lu is internationally renowned for his pioneering efforts in the development and commercialization of novel electrical devices, specifically memristors for memory and logic applications.

Blue PHOLEDs: Final color of efficient OLEDs finally viable in lighting

Synchronizing light and matter adds blue to the OLED color palette

New faculty member Di Liang elected IEEE Fellow

Prof. Liang begins his career at Michigan by building up his Large-Scale Integrated Photonics (LSIP) group.

Nextgen computing: Hard-to-move quasiparticles glide up pyramid edges

Computing with a combination of light and chargeless excitons could beat heat losses and more, but excitons need new modes of transport

ECE PhD student Shubham Mondal wins APL Materials award for research on ferroelectric nitrides

Ferroelectric nitrides could greatly enhance optoelectronic devices and advance IoT sensors, artificial visual systems, and more.

Yixin Xiao awarded AVS scholarship for research that supports optoelectronic and renewable energy applications

Xiao’s work has helped advance artificial photosynthesis research, and he led a project on red micro LEDs that could expand the possibilities for AR and VR applications.

U-Michigan a partner in two CHIPS Act Midwest microelectronics hubs

The latest DoD funding announcements bolster Michigan Engineering’s efforts to support revitalization of the U.S. semiconductor sector.

New global partnership aims to advance renewable energy generation with net-zero hydrogen production technologies

The Global Hydrogen Production Technologies (HyPT) Center seeks to create a viable pathway to decarbonize energy-intensive industries such as ammonia, steel, cement, aluminum, transportation, and more.

Environmentally-friendly chrome-like finish for cars supports wireless sensing technologies for vehicle safety

Prof. L. Jay Guo led the design of novel thin film structures that mimic the chrome appearance, but are made with environmentally benign materials, which also work well with autonomous technology.

Semiconductor workforce program increases access to hands-on training

'In undergrad, you sometimes feel like you're just passing classes. But what we're doing here is science.'

New kind of superresolution explores cell division

Interactions between structures at the nanoscale sync up with the way the whole cell contracts and expands during this vital process.

Three ECE students earn SPIE Optics and Photonics Scholarships

Yakshita Malhotra, Ishtiaque Ahmed Navid, and Yixin Xiao all work with Prof. Zetian Mi.

Organic photovoltaics offer realistic pathway to power-generating windows

A new fabrication process greatly improves the reliability of highly-efficient semi-transparent solar cells, which can be applied to windows to generate solar power.

New method to produce green hydrogen offers promising path to carbon neutrality

With next gen solar cell technology, Prof. Zetian Mi leads a DoE project to develop high efficiency, low cost, and ultrastable production of green hydrogen fuels directly from sunlight and water.

Eliminating the Tradeoffs Between Farming and Solar Energy Development

Testing Semi-Transparent Solar Cell Technology at U-M’s Campus Farm.

Focused ambitions

While hunger for an artificial intelligence that can think like a human remains unsated, AI continues to appear in our lives in smaller ways.

Advancing chips for the auto sector is the goal of new Michigan-based initiative

U-Michigan joins industry, state, education partners to develop talent and technology.

Ishtiaque Navid awarded Predoctoral Fellowship to support research impacting green energy

Navid is exploiting III-Nitride nanostructures for artificial photosynthesis and next generation nanoscale optoelectronics.

Sangmin Yoo awarded Predoctoral Fellowship to support research impacting next generation computing

Yoo is making memory devices more flexible and tunable, making them irresistible for modern AI applications.

From new material to device: Ferroelectric HEMT could be a game changer for next generation electronics

Prof. 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

Parag Deotare awarded DURIP grant to probe exciton energy transport at nanoscale

The tool is expected to advance the study of exciton dynamics, which could help identify new research directions for clean energy and information technology.

Ishtiaque Ahmed Navid awarded the Richard and Eleanor Towner Prize for Distinguished Academic Achievement

Navid focuses on developing nanomaterials for artificial photosynthesis and optoelectronic devices.

Arthur Xiao receives SVCF Scholarship to support his research in semiconductor materials

Xiao 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 phone

Next-gen computing material gets down to the right size for modern manufacturing.

LNF Poster Winners announced

The winning research focused on emitting white light with OLEDs, improving atomic layer deposition methods, and high efficiency green and red MicroLEDs for AR/VR.

Scalable method to manufacture thin film transistors achieves ultra-clean interface for high performance, low-voltage device operation

Led by Prof. Becky Peterson, the research focuses on a category of materials important for low power logic operations, high pixel density screens, touch screens, and haptic displays.

Kamal Rudra named a JN Tata Scholar

This highly selective scholarship is awarded to students from India studying overseas.

Cheap, sustainable hydrogen through solar power

Withstanding 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.

New non-invasive optical imaging approach for monitoring brain health could improve outcomes for traumatic brain injury patients

The SCISCCO system could better monitor brain and organ metabolism, helping to diagnose concussions, monitor cerebral metabolism in traumatic brain injury patients, and gauge the response of organs to treatments in an operating or emergency room scenario.

Prof. Zetian Mi selected as IEEE NTC Distinguished Lecturer

Mi’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

Miniature and durable spectrometer for wearable applications

A team led by P.C. Ku and Qing Qu have developed a miniature, paper-thin spectrometer measuring 0.16mm2 that can also withstand harsh environments.

Kamal Rudra receives IEEE EDS Masters Student Fellowship

Rudra works in the area of solid-state and nanotechnology, and has managed to acquire a broad range of experience in different research settings

Yakshita Malhotra honored for micro-LED research that could define the future of automotive displays

Malhotra’s work on micro-LEDs could lead to more efficient, higher resolution automotive displays capable of supporting augmented reality applications.

Breakthrough in green micro-LEDs for augmented/mixed reality devices

Prof. 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.

Wei Lu named Distinguished University Innovator of the Year

Prof. Wei Lu is honored with the Distinguished University Innovator of the Year Award for his pioneering efforts in the development and commercialization of novel electrical devices.

CHIPS and Science Act: Implications and Opportunities

The CHIPS and Science Act of 2022 promises to revitalize the U.S. semiconductor industry. Dennis Sylvester offers his perspective on what it means for ECE.

A view into what’s really happening during gene editing for Precision CRISPR

Prof. Somin Lee and her research group developed a way to reduce trial and error in gene editing by getting a look at the process in real time

Photosynthesis copycat may improve solar cells

The new approach moves energy efficiently and could reduce energy losses converting light into electricity.

Ester Bentley receives Impact award for her research with the goal of GPS-free navigation

Bentley presented her research as an NDSEG Fellow. She is working to make smaller, more affordable high accuracy navigation-grade gyroscopes.

Toward manufacturing semitransparent solar cells the size of windows

A peel-off patterning technique could enable more fragile organic semiconductors to be manufactured into semitransparent solar panels at scale.

Kamal Rudra awarded Laser Technology, Engineering and Applications Scholarship from SPIE

Rudra, an ECE Master’s student, specializes in solid state and nanotechnology, and his work could help shape the future of AR/VR technologies.

Elaheh Ahmadi receives 2022 ISCS Young Scientist Award for seminal contributions to MBE N-polar (Al,Ga,In)N and (Al,Ga)2O3 heterostructures

Ahmadi has received numerous young faculty honors and awards, and has advanced the state of the art in her field.

Yongmo Park awarded IBM PhD fellowship to support his research on in-memory computing systems

Park works with Prof. Wei Lu on advancing resistive random-access memory (RRAM, or memristor) devices to accelerate AI computing.

Overcoming the efficiency cliff of red micro-LEDs for virtual/augmented reality

Prof. 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 computing

Study uncovers first method for producing high-quality, wafer-scale, single-layer hexagonal boron nitride

Ashley Jian receives Barbour Scholarship to further her research on high-power electronics

Jian works to improve the efficiency of high-power electronics for better energy security and sustainability.

Subhajit Mohanty awarded Richard and Eleanor Towner Prize for Distinguished Academic Achievement

Mohanty’s research is focused on advancing high electron mobility transistors for next generation wireless technologies.

Ashley Jian awarded Marian Sarah Parker Prize from the College of Engineering

Jian’s research is focused on improving the efficiency of high-power electronics, which is important for energy security and sustainability.

‘Exciton surfing’ could enable next-gen energy, computing and communications tech

A charge-neutral information carrier could cut energy waste from computing, now that it can potentially be transported within chips.

New understanding of neurons in the hippocampus: they’re all the same

A longstanding collaboration between engineers and neuroscientists leads to new insights into how neurons work in the hippocampus.

Ashley Jian is working to improve the efficiency of high-power electronics for better energy security and sustainability

Jian received a Best Presentation award at the Electronic Materials Conference for her research focused on enabling very high efficiency power devices.

Quantum tech: Semiconductor “flipped” to insulator above room temp

Discovery could pave the way to high speed, low-energy quantum computing.

Research full speed ahead on manufacturable III-V materials for next-generation electronics

A 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.

Mimicking a human fingertip's sensitivity and sense of direction for robotic applications

With the help of 1.6 million GaN nanopillars per sensor, the University of Michigan team was able to provide human-level sensitivity with directionality on a compact, easily manufactured system

Egg-carton-style patterning keeps charged nanoparticles in place and suitable for a wide range of applications

Prof. Jay Guo and his team discovered a scalable way to settle down and precisely arrange micro- and nano-sized particles according to size

Elaheh Ahmadi receives DARPA Young Faculty Award to support future sensor and communication systems

Ahmadi’s research is focused on using GaN and Ga2O3 materials to provide higher output power per unit area at higher frequencies.

$1.8M to develop room temperature, controllable quantum nanomaterials

The project could pave the way for compact quantum computing and communications as well as efficient UV lamps for sterilization and air purification.

$1 Million DARPA contract to empower the wireless systems of the future

Prof. Elaheh Ahmadi is working to design a new kind of semiconductor that can provide high power at high frequencies

High Efficiency Ultraviolet Light Emitting Diodes to sterilize pathogens, including COVID-19

Research led by Prof. Zetian Mi has been honored with the 2020 Editor-in-Chief Choice Award from "Photonics Research."

Michigan startup MemryX, Inc. promises faster, cheaper AI processing

The ECE startup builds neuromorphic computer chips uniquely suitable for AI applications

Nanotech OLED electrode liberates 20% more light, could slash display power consumption

A five-nanometer-thick layer of silver and copper outperforms conventional indium tin oxide without adding cost.

3D motion tracking system could streamline vision for autonomous tech

Artificial photosynthesis devices that improve themselves with use

Four ECE graduate students recognized by NSF Graduate Research Fellowship Program

$6.25 million to develop new semiconductors for artificial photosynthesis

“Egg carton” quantum dot array could lead to ultralow power devices

Elaheh Ahmadi receives CAREER Award to improve efficiency in high power electrical systems

The research could improve efficiency in systems such as electric vehicles, grid systems, mass transit, and industrial automation

Christopher Allemang awarded IEEE EDS PhD Fellowship for his work advancing thin-film electronics

Podcast: Artificial photosynthesis for sustainable solar fuels

Burn after reading

Full-color nano-LEDs for better, longer lasting LED performance

Urban solar energy: Solar panels for windows hit record 8% efficiency

Professors Jay Guo and Zetian Mi awarded MTRAC funding for research in autonomous and green vehicles

Making plastic more transparent while also adding electrical conductivity

Elaheh Ahmadi receives ONR Young Investigator Award to prepare for the next generation of wireless technology

Russel Lecture: Fighting climate change with organic electronics

Toward a portable concussion detector that relies on an infrared laser

A 3D camera for safer autonomy and advanced biomedical imaging

‘Green methane’ from artificial photosynthesis could recycle CO2

Beyond Moore’s Law: taking transistor arrays into the third dimension

Prof. Elaheh Ahmadi receives AFOSR Young Investigator Program award

Jamie Phillips named Director of the Lurie Nanofabrication Facility

Can organic solar cells last – even into the next millennium? These might.

The new quantum spurs action by the Michigan Quantum Science & Technology Working Group

First programmable memristor computer aims to bring AI processing down from the cloud

Kirigami can spin terahertz rays in real time to peer into biological tissue

The Future is Carbon Neutral

Toward brain-like computing: New memristor better mimics synapses

Pallab Bhattacharya to receive 2019 IEEE Jun-ichi Nishizawa Medal

$1.6M for solar cell windows and high-temperature solar power

A window into the future of solar power

Photosynthesis and Clean Energy

It takes two photonic qubits to make quantum computing possible

Blue Sky: Up to $10M toward research so bold, some of it just might fail

Memory-processing unit (MPU) could bring memristors to the masses

An even smaller world’s smallest ‘computer’

How to color-code nearly invisible nanoparticles

Harvesting clean hydrogen fuel through artificial photosynthesis

Organic solar cells reach record efficiency, benchmark for commercialization

Solar cells enable self-powered camera

Semiconductor breakthrough may be game-changer for organic solar cells

New quick-learning neural network powered by memristors

Deep UV LEDs lead to two best poster awards at ISSLED 2017

New funding for high-fidelity nerve mapping research

Bionic heart tissue: U-Michigan part of $20M center

$7.75M for mapping circuits in the brain

Next-gen computing inspired by biology

Transparent Silver: Tarnish-proof films for flexible displays, touch screens, metamaterials

Prof. Zetian Mi elected SPIE Fellow for contributions to photonic devices and artificial photosynthesis

Wei Lu receives CoE David E. Liddle Research Excellence Award

Becky Peterson receives NSF CAREER Award for research in amorphous semiconductors for next generation electronics

Ushering in the next generation of flat-panel displays and medical imagers

The Lurie Nanofabrication Facility gets a new director

The Michigan Probe: Changing the Course of Brain Research

Parag Deotare receives AFOSR Award for research in Nanoscale Exciton-Mechanical Systems (NEXMS)

Solar power plant: $1.4M grant aims to cut costs

Two papers by Michigan researchers chosen as IEEE Micro Top Picks

Novel collaboration to probe brain activity in unprecedented detail

Making Memory Smaller, Better, Faster, Stronger

A better 3D camera with clear, graphene light detectors

Somin Lee receives AFOSR Young Investigator Award for research in bioplasmonics

Art-inspired solar cells

ECE alumna Ruba Borno to join Cisco’s new executive team

Cheng Zhang awarded Rackham Predoctoral Fellowship for research on nanophotonic materials and devices

Somin Eunice Lee receives CAREER award for research in nanoscale biotechnology

Student Spotlight: Kyusang Lee: A leader in flexible solar cell technology

Ted Norris receives Distinguished Faculty Achievement Award

Thomas Frost receives Best Paper Award for achieving a HQ QD red laser

Metal particles in solids aren’t as fixed as they seem, new memristor study shows

T-ray converts light to sound for weapons detection, medical imaging

Mina Rais-Zadeh receives 2014 ONR Young Investigator Program (YIP) Award

Paradigm shifting research advances in sensor technology

New tech could lead to night vision contact lenses

Transparent color solar cells fuse energy, beauty

‘Photon glue’ enables a new quantum mechanical state

Jamie Phillips named Arthur F. Thurnau Professor

Biochips for better cancer therapy

Byeongseop Song receives Rackham International Student Fellowship

Image processing 1,000 times faster is goal of new $5M contract

Faster, more powerful mobile devices: U-M startup Crossbar could disrupt the memory market

Neural Probe Research recognized with Best Paper Award at 2013 Transducers Conference

A new laser paradigm: An electrically injected polariton laser

Ethan Stark awarded NSF Graduate Research Fellowship

Advancing secure communications: A better single-photon emitter for quantum cryptography

Scientific Milestone: A room temperature Bose-Einstein condensate

Next-Gen E-Readers: Improved peacock technology could lock in color for high-res displays

Zhaohui Zhong receives CAREER Award for research in graphene-based optoelectronics

Super-fine sound beam could one day be an invisible scalpel

Seunghyun Lee takes the gold for all-graphene flexible and transparent circuit

Combining flexible, transparent electronics with high speed communications for the first time

Nano-origami project combines art and engineering to further technology

Thomas Frost awarded NSF Graduate Research Fellowship

Artificial synapses could lead to advanced computer memory and machines that mimic biological brains

Next-generation computer memory firm receives U-Ms first startup investment

Jinyoung Hwang receives Best Poster Award for research leading to improved solar cells

‘Perfect black’ coating can render a 3D object flat, raises intriguing dark veil possibility in astronomy

ePack, Inc. wins Masco Next Gen Manufacturing Award at Innovation Competition

Anne Itsuno receives William E. Spicer – Thomas N. Casselman Award

Colored solar cells could make display screens more efficient

New equation could advance research in solar cells

A groundbreaking new equation could do for organic semiconductors what the Shockley ideal diode equation did for inorganic semiconductors.

Organic laser breakthrough

Prof. P.C. Ku Awarded DARPA Young Faculty Award

Wei Lu receives CAREER Award

Duncan Steel will advance quantum information processes in new MURI

Sung-Hyun Jo receives Silver Prize in SAMSUNG Human-Tech Thesis Prize

Prof. Pallab Bhattacharya To Receive 2008 John Bardeen Award

The Bardeen Award recognizes an individual who has made outstanding contributions and is a leader in the field of electronic materials.

Prof. Jerzy Kanicki’s group earns Excellence Award for Basic and Original Technology

University of Michigan Office of Technology to showcase inventions

Pallab Bhattacharya: The race is on

George Haddad: A remarkable legacy