Rothemund, P. W. K. Folding DNA to create nanoscale shapes and patterns. Nature 440, 297–302 (2006).
Douglas, S. M. et al. Self-assembly of DNA into nanoscale three-dimensional shapes. Nature 459, 414–418 (2009).
Seeman, N. C. DNA in a material world. Nature 421, 427–431 (2003).
Yan, H., Park, S. H., Finkelstein, G., Reif, J. H. & LaBean, T. H. DNA-templated self-assembly of protein arrays and highly conductive nanowires. Science 301, 1882–1884 (2003).
Aldaye, F. A., Palmer, A. L. & Sleiman, H. F. Assembling materials with DNA as the guide. Science 321, 1795–1799 (2008).
Wang, P. et al. Magnetic plasmon networks programmed by molecular self-assembly. Adv. Mater. 31, 1901364 (2019).
Liu, X. et al. Complex silica composite nanomaterials templated with DNA origami. Nature 559, 593–598 (2018).
Sun, W. et al. Casting inorganic structures with DNA molds. Science 346, 1258361 (2014).
Kolbeck, P. J. et al. A DNA origami fiducial for accurate 3D atomic force microscopy imaging. Nano Lett. 23, 1236–1243 (2023).
Kabusure, K. M. et al. Optical characterization of DNA origami-shaped silver nanoparticles created through biotemplated lithography. Nanoscale 14, 9648–9654 (2022).
Diagne, C. T., Brun, C., Gasparutto, D., Baillin, X. & Tiron, R. DNA origami mask for sub-ten-nanometer lithography. ACS Nano 10, 6458–6463 (2016).
Surwade, S. P., Zhao, S. & Liu, H. Molecular lithography through DNA-mediated etching and masking of SiO2. J. Am. Chem. Soc. 133, 11868–11871 (2011).
Jin, Z. et al. Metallized DNA nanolithography for encoding and transferring spatial information for graphene patterning. Nat. Commun. 4, 1663 (2013).
Shen, B. et al. Plasmonic nanostructures through DNA-assisted lithography. Sci. Adv. 4, eaap8978 (2018).
Surwade, S. P. et al. Nanoscale growth and patterning of inorganic oxides using DNA nanostructure templates. J. Am. Chem. Soc. 135, 6778–6781 (2013).
Shen, J., Sun, W., Liu, D., Schaus, T. & Yin, P. Three-dimensional nanolithography guided by DNA modular epitaxy. Nat. Mater. 20, 683–690 (2021).
Ke, Y., Ong, L. L., Shih, W. M. & Yin, P. Three-dimensional structures self-assembled from DNA bricks. Science 338, 1177–1183 (2012).
Maune, H. T. et al. Self-assembly of carbon nanotubes into two-dimensional geometries using DNA origami templates. Nat. Nanotechnol. 5, 61–66 (2010).
Kuzyk, A. et al. DNA-based self-assembly of chiral plasmonic nanostructures with tailored optical response. Nature 483, 311–314 (2012).
Voigt, N. V. et al. Single-molecule chemical reactions on DNA origami. Nat. Nanotechnol. 5, 200–203 (2010).
Knudsen, J. B. et al. Routing of individual polymers in designed patterns. Nat. Nanotechnol. 10, 892–898 (2015).
Hartl, C. et al. Position accuracy of gold nanoparticles on DNA origami structures studied with small-angle X-ray scattering. Nano Lett. 18, 2609–2615 (2018).
Funke, J. J. & Dietz, H. Placing molecules with Bohr radius resolution using DNA origami. Nat. Nanotechnol. 11, 47–52 (2016).
Kershner, R. J. et al. Placement and orientation of individual DNA shapes on lithographically patterned surfaces. Nat. Nanotechnol. 4, 557–561 (2009).
Hung, A. M. et al. Large-area spatially ordered arrays of gold nanoparticles directed by lithographically confined DNA origami. Nat. Nanotechnol. 5, 121–126 (2010).
Gopinath, A., Miyazono, E., Faraon, A. & Rothemund, P. W. K. Engineering and mapping nanocavity emission via precision placement of DNA origami. Nature 535, 401–405 (2016).
Gopinath, A. et al. Absolute and arbitrary orientation of single-molecule shapes. Science 371, eabd6179 (2021).
Cervantes-Salguero, K. et al. Single molecule DNA origami nanoarrays with controlled protein orientation. Biophys. Rev. 3, 031401 (2022).
Huang, D., Patel, K., Perez-Garrido, S., Marshall, J. F. & Palma, M. DNA origami nanoarrays for multivalent investigations of cancer cell spreading with nanoscale spatial resolution and single-molecule control. ACS Nano 13, 728–736 (2019).
Gopinath, A. & Rothemund, P. W. K. Optimized assembly and covalent coupling of single-molecule DNA origami nanoarrays. ACS Nano 8, 12030–12040 (2014).
Deckman, H. W. & Dunsmuir, J. H. Natural lithography. Appl. Phys. Lett. 41, 377–379 (1982).
Shetty, R. M., Brady, S. R., Rothemund, P. W. K., Hariadi, R. F. & Gopinath, A. Bench-top fabrication of single-molecule nanoarrays by DNA origami placement. ACS Nano 15, 11441–11450 (2021).
Martynenko, I. V., Ruider, V., Dass, M., Liedl, T. & Nickels, P. C. DNA origami meets bottom-up nanopatterning. ACS Nano 15, 10769–10774 (2021).
Penzo, E., Wang, R., Palma, M. & Wind, S. J. Selective placement of DNA origami on substrates patterned by nanoimprint lithography. J. Vac. Sci. Technol. B 29, 06F205 (2011).
Douglas, S. M. et al. Rapid prototyping of 3D DNA-origami shapes with caDNAno. Nucleic Acids Res. 37, 5001–5006 (2009).
Kim, D.-N., Kilchherr, F., Dietz, H. & Bathe, M. Quantitative prediction of 3D solution shape and flexibility of nucleic acid nanostructures. Nucleic Acids Res. 40, 2862–2868 (2011).
Suzuki, Y., Endo, M. & Sugiyama, H. Lipid-bilayer-assisted two-dimensional self-assembly of DNA origami nanostructures. Nat. Commun. 6, 8052 (2015).
Cao, H. H. et al. Seeding the self-assembly of DNA origamis at surfaces. ACS Nano 14, 5203–5212 (2020).
Jing, X. et al. Solidifying framework nucleic acids with silica. Nat. Protoc. 14, 2416–2436 (2019).
Wen, X. et al. 3D-printed silica with nanoscale resolution. Nat. Mater. 20, 1506–1511 (2021).
Seniutinas, G. et al. Tipping solutions: emerging 3D nano-fabrication/-imaging technologies. Nanophotonics 6, 923–941 (2017).
Tan, C. et al. 2D fin field-effect transistors integrated with epitaxial high-k gate oxide. Nature 616, 66–72 (2023).
Gottlieb, S. et al. Self-assembly morphology of block copolymers in sub-10 nm topographical guiding patterns. Mol. Syst. Des. Eng. 4, 175–185 (2019).
Ouk Kim, S. et al. Epitaxial self-assembly of block copolymers on lithographically defined nanopatterned substrates. Nature 424, 411–414 (2003).
Wickham, S. F. J. et al. Complex multicomponent patterns rendered on a 3D DNA-barrel pegboard. Nat. Commun. 11, 5768 (2020).
Zhang, T. et al. 3D DNA origami crystals. Adv. Mater. 30, 1800273 (2018).
Shaw, A., Benson, E. & Högberg, B. Purification of functionalized DNA origami nanostructures. ACS Nano 9, 4968–4975 (2015).
Stahl, E., Martin, T. G., Praetorius, F. & Dietz, H. Facile and scalable preparation of pure and dense DNA origami solutions. Angew. Chem. Int. Ed. 53, 12735–12740 (2014).
Lin, C., Perrault, S. D., Kwak, M., Graf, F. & Shih, W. M. Purification of DNA-origami nanostructures by rate-zonal centrifugation. Nucleic Acids Res. 41, e40 (2012).
Martynenko, I. et al. Site-directed placement of three-dimensional DNA origami. Dryad https://doi.org/10.5061/dryad.pg4f4qrvz and Zenodo https://doi.org/10.5281/zenodo.8119098 (2023).
- SEO Powered Content & PR Distribution. Get Amplified Today.
- PlatoData.Network Vertical Generative Ai. Empower Yourself. Access Here.
- PlatoAiStream. Web3 Intelligence. Knowledge Amplified. Access Here.
- PlatoESG. Automotive / EVs, Carbon, CleanTech, Energy, Environment, Solar, Waste Management. Access Here.
- PlatoHealth. Biotech and Clinical Trials Intelligence. Access Here.
- ChartPrime. Elevate your Trading Game with ChartPrime. Access Here.
- BlockOffsets. Modernizing Environmental Offset Ownership. Access Here.
- Source: https://www.nature.com/articles/s41565-023-01487-z
- ][p
- 1
- 10
- 11
- 12
- 13
- 14
- 15%
- 16
- 17
- 19
- 20
- 2006
- 2008
- 2011
- 2012
- 2013
- 2014
- 2015
- 2016
- 2017
- 2018
- 2019
- 2020
- 2021
- 2022
- 2023
- 22
- 220
- 23
- 24
- 25
- 26
- 27
- 28
- 2D
- 30
- 31
- 32
- 33
- 36
- 39
- 3d
- 40
- 46
- 49
- 50
- 52
- 65
- 7
- 8
- 9
- a
- Absolute
- accuracy
- accurate
- AL
- am
- and
- article
- AS
- Assembly
- At
- b
- Block
- by
- Cancer
- carbon
- carbon nanotubes
- casting
- cell
- chemical
- click
- complex
- control
- controlled
- COVALENT
- create
- created
- defined
- dense
- designed
- dna
- e
- E&T
- ed
- emerging
- emission
- Engineering
- Ether (ETH)
- external
- fin
- Flexibility
- For
- Force
- Framework
- from
- Gold
- Graphene
- Growth
- guide
- guided
- highly
- http
- HTTPS
- i
- Imaging
- in
- individual
- information
- integrated
- into
- Investigations
- Kim
- LINK
- mapping
- Martin
- mask
- material
- materials
- Meets
- Microscopy
- modular
- molds
- molecular
- molecule
- Nanomaterials
- nanotechnology
- Natural
- Nature
- networks
- of
- on
- optimized
- Palmer
- Park
- patterns
- placement
- placing
- plato
- Plato Data Intelligence
- PlatoData
- Polymers
- position
- Precision
- prediction
- preparation
- programmed
- Protein
- prototyping
- quantitative
- R
- rapid
- reactions
- Resolution
- response
- routing
- s
- scalable
- Scholar
- SCI
- selective
- Shape
- shapes
- Silver
- single
- solidifying
- solution
- Solutions
- Spatial
- Spreading
- structures
- studied
- Sun
- T
- tailored
- Technologies
- templates
- The
- three-dimensional
- Through
- Tipping
- to
- Transferring
- using
- via
- W
- wind
- with
- world
- X
- x-ray
- zephyrnet
- Zhao
