An Organic Semiconductor Organized into 3D DNA Arrays by “Bottom‐up” Rational Design
Abstract
A 3D array of organic semiconductors was assembled using a DNA scaffold. An octameric aniline molecule (“octaniline”) was incorporated into a DNA building block based on a dimeric tensegrity triangle. The construct self‐assembled to form a 3D crystal. Reversible redox conversion between the pernigraniline and leucoemeraldine states of the octaniline is retained in the crystal. Protonic doping gave emeraldine salt at pH 5, corresponding to the conductive form of polyaniline. Redox cycling within the crystal was visualized by color changes and Raman microscopy. The ease of conversion between the octaniline states suggests that it is a viable electronic switch within a unique 3D structure.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- May 03, 2017
- Source ID
- 10.1002/ange.201700462
Entities
People
- Carina Hernandez
- Chengde Mao
- James W. Canary
- Martin Kristiansen
- Nadrian C. Seeman
- Ruojie Sha
- Xiao Wang
- Yudong Hao
Organizations
- Army Research Office
- Gordon and Betty Moore Foundation
- National Science Foundation
- New York University
- Office of Naval Research
- Purdue University
- United States Department of Energy