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Parag Deotare

‘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.

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

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

$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.

Educating a quantum workforce with QuSTEAM while opening doors to a broad and diverse range of students

Michigan is part of a multi-institution effort to create new flexible courses for undergraduate students interested in being part of the second quantum revolution

Che-Hsuan Cheng’s hybrid transistor earns Best Poster Award

Cheng’s research may help advance the design of next generation microchip devices, as well as ultrasensitive UV photodetectors.

Burn after reading

A self-erasing chip for security and anti-counterfeit tech.

Two U-M students receive scholarships from the International Society for Optics and Photonics

Hanzhang Pei (ECE) and Darwin F. Cordovilla Leon (Applied Physics) were selected for their potential contributions to the field of optics, photonics or related field.

Parag Deotare voted 2017 HKN Professor of the Year for ECE

ECE students say Prof. Deotare is the best!

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

Prof. Deotare’s work will deepen our understanding of the underlying physics of exciton-mechanics interactions and help engineer novel devices for energy harvesting and up-conversion.