I believe in the technological empowerment of humanity. My passion in CMOS technology and electronics urges for direct applications for a better future. Interactive, freeform, and democratized technology is my goal and therefore, I fuse a variety of techniques using hybrid sets of materials, processes, and devices.
Muhammad Hussain Professor, Electrical Engineering

Location

Courses

Professor Hussain's courses

Editorial Membership

Editor of IEEE Transactions on Electron Devices

Editor-in-Chief of Applied Nanoscience (Springer-Nature)

Patents

7,736,954, Awarded on 15 June 2010: Methods for nanoscale feature imprint molding, Hussain; Muhammad Mustafa (Austin, TX), Moumen; Naim (Walden, NY), Gebara; Gabriel (Austin, TX), Labelle; Ed (Austin, TX), Lanee; Sidi (Austin, TX), Sassman; Barry (Cedar Park, TX), Jammy; Raj (Austin, TX)

9,203,010, Awarded on 1 December 2015: Apparatuses and systems for embedded thermoelectric generators, Hussain; Muhammad M. (Thuwal, SA), Inayat; Salman Bin (Thuwal, SA), Smith; Casey Eben (Thuwal, SA)

9,209,083, Awarded on 8 December 2015: Integrated circuit manufacturing for low-profile and flexible devices, Hussain; Muhammad M. (Austin, TX), Rojas; Jhonathan P. (Thuwal, SA)

9,224,813, Awarded on 29 December 2015: Cylindrical-shaped nanotube field effect transistor, Hussain; Muhammad M. (Thuwal, SA), Fahad; Hossain M. (Thuwal, SA), Smith; Casey E. (Thuwal, SA), Rojas; Jhonathan P. (Thuwal, SA) [Also issued as PCT National Phase]

9,515,245, Awarded on 6 December 2016: Apparatus, system, and method for on-chip thermoelectricity generation, Hussain; Muhammad M. (Austin, TX), Fahad; Hossain M. (Thuwal, SA), Rojas; Jhonathan P. (Thuwal, SA)

9,520,293, Awarded on 13 December 2016: Method for producing mechanically flexible silicon substrate, Hussain; Muhammad M. (Austin, TX), Rojas; Jhonathan P. (Thuwal, SA) [Also issued as PCT National Phase as well as in Japan and in South Korea]

 

Education Profile

  • Ph.D., Electrical and Computer Engineering, University of Texas, Austin, USA, 2005
  • M.S., Electrical and Computer Engineering (SSE), University of Texas, Austin, USA, 2004
  • M.S., Electrical Engineering (Electrophysics), University of Southern California, USA, 2002
  • B.S., Electrical and Electronic Engineering, Bangladesh University of Engineering and Technology, Bangladesh, 2000

Muhammad Mustafa Hussain is a founding professor of Electrical Engineering (EE), KAUST and a Visiting Professor of EECS, University of California, Berkeley. He is Principal Investigator and Principal Innovator of Futuristic Electronics Lab, ideator of FabLabTM and Virtual FabTM (http://vFabLab.org), founding the logistic director of Imagine Lab @ KAUST, PI of KAUST-KFUPM Special Initiative and active member of the Sensor Initiative of the King Abdullah University of Sciences and Technology, Saudi Arabia. Hussain's research is in transformational electronics and includes innovating new applications for web integrated interactive electronics using CMOS compatible processes to transform materials, device architectures, substrates, waste materials into impactful resources including high-performance flexible-stretchable-transparent-reconfigurable inorganic nanoelectronics and nanoelectronic systems.

Education and early career

Dr. Muhammad Mustafa Hussain (Ph.D., ECE, UT Austin, Dec 2005) before joining KAUST was Program Manager of Emerging Technology Program in SEMATECH, Austin. His program was funded by DARPA NEMS, CERA, and STEEP programs.

Areas of expertise and current scientific interests

1. CMOS Electronics and CMOS Technology: Planar and Non-planar (Nanotube FET with Core-Shell Gate Stacks for Ultra-High Performance as well as Ultra-Low Power Consuming Implantable Electronics, Wavy Transistors for Ultra-High Resolution Display and NEM Switches for Harsh Environment Applications)

2. Physically Flexible-Stretchable-Reconfigurable CMOS Electronic System for Affordable Personalized Healthcare Applications, Add-on and Coin Electronics for the Internet of Everything (IoE) based Civilian and Defense Applications

3. Paper Electronics Based on DIY Integration Strategy for Accessible Technology for All Applications

4. Energy Harvesters, Storage, Water Purification, Agricultural Productivity, Food Quality, and Environmental Monitoring for Sustainable Future

Career Recognition

Scientific American has listed his research as one of the Top 10 World Changing Ideas of 2014. Applied Physics Letters selected his paper as one of the Top Feature Articles of 2015. He and his students have received 39 research awards including IEEE Region 5 Outstanding Individual Achievement Award 2016, World Technology Award Finalist in Health and Medicine 2016, TEDx 2017, Outstanding Young Texas Exes Award 2015 (UT Austin Alumni Award), US National Academies’ Arab-American Frontiers of Sensors 2015, 2016, DOW Chemical Sustainability Challenge Award 2012, etc. His research has been highlighted extensively in international media like in Washington Post, Wall Street Journal (WSJ), IEEE Spectrum, etc.

Professional and editorial activities

A regular panelist of US NSF grants reviewing committees, Dr. Hussain is the Fellow of American Physical Society (APS), Institute of Physics, UK and Institute of Nanotechnology, UK, IEEE Electron Devices Society Distinguished Lecturer, Editor-in-Chief of Applied Nanoscience (Springer-Nature), Editor of IEEE Transactions on Electron Devices, and an IEEE Senior Member. He has served as the first or corresponding author in 90% of his 350+ research papers (including 30+ invited reviews, 35+ cover articles, and 175+ journal papers) and 50+ US and international patents.

Selected Research Highlights

Why KAUST?

At KAUST, Hussain leads two Labs and his research advances in core facilities housed in the Division such as the Nanofab Core Lab, Imaging and Characterization Lab, the Analytical Chemistry Lab and CMOR. “KAUST inarguably has the most advanced academic lab infrastructure, and a diverse community where it can evolve into a world-class university.”