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A Record-setting Way to Make Transparent Conductors: Spread Them Like Butter on Toast
Our work on transparent conductors was featured on the Stanford Linear Accelerator Laboratory News.


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Stanford engineers create artificial skin that can send pressure sensation to brain cell
Our work on pressure-sensitive E-skin was featured prominently through the Internet.


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E-Skin That Changes Color Like a Chameleon
Our work on pressure-sensitive, color-changing E-skin was featured on the Daily Beast.


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Stretchable Carbon Nanotube Transistors Are Put to the Test
Our work on robust carbon nanotube devices was featured on the MRS Bulletin.


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Microscopic Rake Doubles Efficiency of Low-cost Solar Cells
Our work on fluid-enhanced solution shearing for solar cells was featured by the Stanford National Accelerator Laboratory (SLAC).


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Carbon-60 and graphene for vertical transistors
Our work on C60 and graphene for vertical transistors was featured on nanotechweb.org.


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New "designer carbon" from Stanford boosts battery performance
Our work on designer carbon for batteries was featured on the Stanford Report.


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Former group members build world's thinnest flexible OLED display
Our former group members' work on thin flexible OLED displays was featured on PR Newswire.


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Stanford engineers make flexible carbon nanotube circuits more reliable and efficient
Our work on flexible carbon nanotube circuits was featured on the Stanford Report.


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Engineers Make World’s Fastest Organic Transistor
Our work on transparent organic transistors was featured on Stanford Engineering News and Materials Today.


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Welcome to Bao Research Group

A book on Organic Field Effect Transistors

R

esearch areas in the Bao Group include synthesis of functional organic and polymer materials, organic electronic device design and fabrication, and applications development for organic electronics. Our approach is multidisciplinary, involving concepts and expertise from chemistry, chemical engineering, biomedical engineering, materials science and engineering, physics, and electrical engineering. The devices of current interest are organic and carbon nanotube thin film transistors, organic photovoltaic cells, chemical/biological sensors and molecular switches. These devices are used as characterization tools for fundamental charge transport and photophysics studies. They are also of practical interest for nano-scale electronics, alternative energy sources, low cost and large area flexible plastic circuits, displays, and disposable sensors.

News Feature: Electronic Skin May Someday Restore Touch - ABC


See our recent review on The Evolution of Electronic Skin (E-Skin): A Brief History, Design Considerations, and Recent Progress.

Learn about how our wireless pressure sensor works:

Learn about our self-healing plastics:

 

 

Group Announcements

  • Professor Bao named 1 of the 13 Most Impressive Professors at Stanford University

     

     

     


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  • Clementine Boutry wins Best Student Paper at the IEEE SENSORS 2015 Conference

     

     


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  • Sean Andrews wins Best Poster at Oak Ridge National Lab

     


     


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  • Gino wins the CHESS Student Paper Prize for his work published in Nature Communications



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  • Amanda Nguyen receives the NSF Graduate Research Fellowship





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  • Ben Naab receives an award from the ACS Division of Polymer Chemistry

     


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  • Sophie Miller receives the 2015 Churchill Scholarship


     

     


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  • Evan Wang wins the 2014 Fall MRS Graduate Student Gold Award


     

     

     


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