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W Benjamin Rogers

Showing results (21-30 of 35) with videos related to

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Soft Matter|March 18, 2025
The underappreciated role of nonspecific interactions in the crystallization of DNA-coated colloidsHunter Seyforth, Sambarta Chatterjee, Thomas E Videbæk, et al.
Journal of Physics. Condensed Matter : an Institute of Physics Journal|January 4, 2022
Tiling a tubule: how increasing complexity improves the yield of self-limited assemblyThomas E Videbæk, Huang Fang, Daichi Hayakawa, et al.
Proceedings of the National Academy of Sciences of the United States of America|September 9, 2025
Measuring multisubunit mechanics of geometrically programmed colloidal assemblies via cryo-EM multi-body refinementThomas E Videbæk, Daichi Hayakawa, Michael F Hagan, et al.
Science Advances|July 3, 2024
Economical routes to size-specific assembly of self-closing structuresThomas E Videbæk, Daichi Hayakawa, Gregory M Grason, et al.
Nature Communications|November 22, 2012
Driving diffusionless transformations in colloidal crystals using DNA handshakingMarie T Casey, Raynaldo T Scarlett, W Benjamin Rogers, et al.
Physical Review Letters|September 26, 2025
Magic Sizes Enable Minimal-Complexity High-Fidelity Assembly of Programmable ShellsBotond Tyukodi, Fernando Caballero, Daichi Hayakawa, et al.
ACS Nano|August 19, 2025
Economical and Versatile Subunit Design Principles for Self-Assembled DNA Origami StructuresWei-Shao Wei, Thomas E Videbæk, Daichi Hayakawa, et al.
Physical Review. E|November 28, 2019
Before the breach: Interactions between colloidal particles and liquid interfaces at nanoscale separationsAnna Wang, Jos W Zwanikken, David M Kaz, et al.
Proceedings of the National Academy of Sciences of the United States of America|December 2, 2025
From toroids to helical tubules: Kirigami-inspired programmable assembly of two-periodic curved crystals from DNA origamiMason Price, Daichi Hayakawa, Thomas E Videbæk, et al.
Nano Letters|December 20, 2024
DNA Origami Colloidal Crystals: Opportunities and ChallengesJaewon Lee, Jangwon Kim, Gregor Posnjak, et al.
Pageof 4

Showing results (21-30 of 35) with videos related to

Sort By:
Pageof 4
Soft Matter|March 18, 2025
The underappreciated role of nonspecific interactions in the crystallization of DNA-coated colloidsHunter Seyforth, Sambarta Chatterjee, Thomas E Videbæk, et al.
Journal of Physics. Condensed Matter : an Institute of Physics Journal|January 4, 2022
Tiling a tubule: how increasing complexity improves the yield of self-limited assemblyThomas E Videbæk, Huang Fang, Daichi Hayakawa, et al.
Proceedings of the National Academy of Sciences of the United States of America|September 9, 2025
Measuring multisubunit mechanics of geometrically programmed colloidal assemblies via cryo-EM multi-body refinementThomas E Videbæk, Daichi Hayakawa, Michael F Hagan, et al.
Science Advances|July 3, 2024
Economical routes to size-specific assembly of self-closing structuresThomas E Videbæk, Daichi Hayakawa, Gregory M Grason, et al.
Nature Communications|November 22, 2012
Driving diffusionless transformations in colloidal crystals using DNA handshakingMarie T Casey, Raynaldo T Scarlett, W Benjamin Rogers, et al.
Physical Review Letters|September 26, 2025
Magic Sizes Enable Minimal-Complexity High-Fidelity Assembly of Programmable ShellsBotond Tyukodi, Fernando Caballero, Daichi Hayakawa, et al.
ACS Nano|August 19, 2025
Economical and Versatile Subunit Design Principles for Self-Assembled DNA Origami StructuresWei-Shao Wei, Thomas E Videbæk, Daichi Hayakawa, et al.
Physical Review. E|November 28, 2019
Before the breach: Interactions between colloidal particles and liquid interfaces at nanoscale separationsAnna Wang, Jos W Zwanikken, David M Kaz, et al.
Proceedings of the National Academy of Sciences of the United States of America|December 2, 2025
From toroids to helical tubules: Kirigami-inspired programmable assembly of two-periodic curved crystals from DNA origamiMason Price, Daichi Hayakawa, Thomas E Videbæk, et al.
Nano Letters|December 20, 2024
DNA Origami Colloidal Crystals: Opportunities and ChallengesJaewon Lee, Jangwon Kim, Gregor Posnjak, et al.
Pageof 4