Cation-dependent assembly of hexagonal DNA origami lattices on SiO2 surfaces
B.K. Pothineni, G. Grundmeier, A. Keller, Nanoscale (2023).
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<jats:p>DNA origami nanostructures have emerged as functional materials for applications in various areas of science and technology. In particular, the transfer of the DNA origami shape into inorganic materials using...</jats:p>
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Pothineni BK, Grundmeier G, Keller A. Cation-dependent assembly of hexagonal DNA origami lattices on SiO2 surfaces. Nanoscale. Published online 2023. doi:10.1039/d3nr02926c
Pothineni, B. K., Grundmeier, G., & Keller, A. (2023). Cation-dependent assembly of hexagonal DNA origami lattices on SiO2 surfaces. Nanoscale. https://doi.org/10.1039/d3nr02926c
@article{Pothineni_Grundmeier_Keller_2023, title={Cation-dependent assembly of hexagonal DNA origami lattices on SiO2 surfaces}, DOI={10.1039/d3nr02926c}, journal={Nanoscale}, publisher={Royal Society of Chemistry (RSC)}, author={Pothineni, Bhanu Kiran and Grundmeier, Guido and Keller, Adrian}, year={2023} }
Pothineni, Bhanu Kiran, Guido Grundmeier, and Adrian Keller. “Cation-Dependent Assembly of Hexagonal DNA Origami Lattices on SiO2 Surfaces.” Nanoscale, 2023. https://doi.org/10.1039/d3nr02926c.
B. K. Pothineni, G. Grundmeier, and A. Keller, “Cation-dependent assembly of hexagonal DNA origami lattices on SiO2 surfaces,” Nanoscale, 2023, doi: 10.1039/d3nr02926c.
Pothineni, Bhanu Kiran, et al. “Cation-Dependent Assembly of Hexagonal DNA Origami Lattices on SiO2 Surfaces.” Nanoscale, Royal Society of Chemistry (RSC), 2023, doi:10.1039/d3nr02926c.
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