Distortion of DNA Origami on Graphene Imaged with Advanced TEM Techniques
Abstract
While graphene may appear to be the ultimate support membrane for transmission electron microscopy (TEM) imaging of DNA nanostructures, very little is known if it poses an advantage over conventional carbon supports in terms of resolution and contrast. Microscopic investigations are carried out on DNA origami nanoplates that are supported onto freestanding graphene, using advanced TEM techniques, including a new dark‐field technique that is recently developed in our lab. TEM images of stained and unstained DNA origami are presented with high contrast on both graphene and amorphous carbon membranes. On graphene, the images of the origami plates show severe unwanted distortions, where the rectangular shape of the nanoplates is significantly distorted. From a number of comparative control experiments, it is demonstrated that neither staining agents, nor screening ions, nor the level of electron‐beam irradiation cause this distortion. Instead, it is suggested that origami nanoplates are distorted due to hydrophobic interaction of the DNA bases with graphene upon adsorption of the DNA origami nanoplates.
Document Details
- Document Type
- Pub Defense Publication
- Publication Date
- Jun 16, 2017
- Source ID
- 10.1002/smll.201700876
Entities
People
- Adithya N. Ananth
- Allard Katan
- Cees Dekker
- Henny Zandbergen
- Jaco Van Der Torre
- Jing Kong
- Jin‐yong Hong
- Sairam Malladi
- Yoones Kabiri
Organizations
- Air Force Office of Scientific Research
- Delft University of Technology
- Dutch Research Council
- European Research Council
- Massachusetts Institute of Technology