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Nanostructured programmable matter for functional architectures and devices

August 31, 2011

The objective of this Seed is to understand cooperative electronic, optical and electromagnetic phenomena emerging from the interactions of nanoscale building blocks. Recent work encompasses synthesis of nanoparticles (figure right) and nanowires, and the investigation of how nanocrystals can drive geometrical rearrangement in polymersome micelles (figure right). A second breakthrough (figure below), developed a ligand exchange process that enables flexible electronic devices (FETs) based on nanocrystal assemblies

figure: Nanostructured programmable matter for functional architectures and devices | Hickey, Haynes, Kikkawa, and Park, JACS. 133, 1517 (2011).

Hickey, Haynes, Kikkawa, and Park, JACS. 133, 1517 (2011).

figure: Nanostructured programmable matter for functional architectures and devices | Dong, Ye, Chen, Kang, Gordon, Kikkawa, and Murray, JACS 133, 998 (2011).

Dong, Ye, Chen, Kang, Gordon, Kikkawa, and Murray, JACS 133, 998 (2011).

Author(s) with affiliations: 

Ritesh Agarwal, Russ Composto, Marija Drndic, Cherie Kagan, Jay Kikkawa, Jennifer Lukes, Chris Murray and So-Jung Park

IRG Group Number: 
SEED (2005-2011)
URL on MRSEC website: 
http://www.lrsm.upenn.edu/highlights/