Graphene, a sub-nanometer thick sheet made of carbon, was isolated just over a decade ago (2004), yet swiftly won the Nobel Prize for Geim and Novoselov in 2010 for its properties of high strength, conductivity, and transparency. Students will replicate the procedure used to isolate graphene and make graphene quantum dots from citrus fruit juice. This lab is designed to help students understand the quantum nature of electrons and light, including the wave/particle nature of both. Students will encounter graphene and learn about its strength, conductivity, and transparency. Using “kitchen” science students will use a citrus fruit juice of their choice and analyze any fluorescence produced for comparative brightness and color.

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NSF Research Experience for Teachers NSF# EEC-1200925 ; Southeastern Nanotechnology Infrastructure Corridor NSF # ECCS 1542174; National Nanotechnology Coordinated Infrastructure NSF # ECCS 162183

Researchers should cite this work as follows:

• John Gomm, NNCI Nano (2020), "Turning Fruit Juice into Graphene Quantum Dots," https://nanohub.org/resources/31905.

  BibTex | EndNote

1. carbon based materials
2. chemistry
3. graphene
4. high school
5. K-12
6. NNCI Educational Materials
7. Physics
8. quantum dots
9. undergraduate level