journal article
Crystallization of amphiphilic DNA C-Stars
Abstract
Many emerging technologies require materials with well-defined 3D nanoscale architectures. Production of these structures is currently underpinned by self-assembling amphiphilic macromolecules or engineered all-DNA building blocks. Both these approaches produce restricted ranges of crystal geometries due to synthetic amphiphiles’ simple shape and limited specificity, or the technical difficulties in designing space-filling DNA motifs with targeted shapes. We have overcome these limitations with amphiphilic DNA-nanostructures, or “C-Stars”, that combine the design freedom and facile functionalization of DNA-based materials with robust hydrophobic interactions. C-Stars self-assemble into single crystals exceeding 40 μm in size with lattice parameters exceeding 20 nm- Journal Article
- Science & Technology
- Physical Sciences
- Technology
- Chemistry, Multidisciplinary
- Chemistry, Physical
- Nanoscience & Nanotechnology
- Materials Science, Multidisciplinary
- Physics, Applied
- Physics, Condensed Matter
- Chemistry
- Science & Technology - Other Topics
- Materials Science
- Physics
- DNA crystallization
- hydrophobic interactions
- amphiphilic molecules
- self-assembly
- single crystals
- DNA nanotechnology
- NUCLEIC-ACID JUNCTIONS
- NANOSTRUCTURED MATERIALS
- ENERGY-CONVERSION
- BLOCK-COPOLYMERS
- PHASE-BEHAVIOR
- CRYSTAL
- POLYMER
- NANOSTARS
- HYDROGEL
- STORAGE
- MD Multidisciplinary
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This paper was published in Spiral - Imperial College Digital Repository.
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Licence: © 2017 American Chemical Society. This is an open access article published under a Creative Commons