Lattice engineering through nanoparticle-DNA frameworks.

Nature Materials
Ye TianOleg Gang

Abstract

Advances in self-assembly over the past decade have demonstrated that nano- and microscale particles can be organized into a large diversity of ordered three-dimensional (3D) lattices. However, the ability to generate different desired lattice types from the same set of particles remains challenging. Here, we show that nanoparticles can be assembled into crystalline and open 3D frameworks by connecting them through designed DNA-based polyhedral frames. The geometrical shapes of the frames, combined with the DNA-assisted binding properties of their vertices, facilitate the well-defined topological connections between particles in accordance with frame geometry. With this strategy, different crystallographic lattices using the same particles can be assembled by introduction of the corresponding DNA polyhedral frames. This approach should facilitate the rational assembly of nanoscale lattices through the design of the unit cell.

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Citations

Aug 25, 2016·Nature Chemistry·Wenyan LiuOleg Gang
Jun 25, 2016·ACS Nano·Robert SchreiberAndrew J Turberfield
Aug 24, 2016·Chemical Reviews·Michael A BolesDmitri V Talapin
Sep 13, 2016·Journal of the American Chemical Society·Matthias KünzleTobias Beck
Oct 30, 2016·Journal of the American Chemical Society·Matthew N O'BrienChad A Mirkin
Jan 26, 2017·Journal of the American Chemical Society·Janet R McMillanChad A Mirkin
May 11, 2017·ACS Nano·Wenyan LiuSanat K Kumar
May 19, 2018·Advanced Materials·Tao ZhangTim Liedl
Jan 25, 2018·Advanced Materials·Sami NummelinVeikko Linko
Jun 21, 2017·Advanced Materials·Dhruv P SinghAndrew G Mark
Jan 30, 2018·Advanced Science·Kae Jye SiWenlong Cheng
Feb 16, 2019·Advanced Materials·Yong Hu, Christof M Niemeyer
Feb 27, 2019·Nanoscale·Sofia JulinMauri A Kostiainen
Jan 24, 2018·Proceedings of the National Academy of Sciences of the United States of America·Allan M BrooksKyle J M Bishop
Nov 29, 2017·Nature Materials·Étienne BoulaisMark Bathe
May 3, 2019·Nature Communications·Nathan A MahynskiJeetain Mittal
Sep 25, 2019·Research : a Science Partner Journal·Shaokang RenChunhai Fan
Jul 22, 2020·Chemical Society Reviews·Kerong DengZewei Quan
Dec 13, 2017·Nanotechnology·P Lourdu Xavier, Arun Richard Chandrasekaran
May 10, 2020·Nature Communications·Sha SunOleg Gang
Mar 14, 2020·Proceedings of the National Academy of Sciences of the United States of America·Shih-Ting WangOleg Gang
Jun 26, 2020·Nature Materials·Shuoxing JiangHao Yan
Dec 8, 2016·Physical Review Letters·Stephen Whitelam
Dec 2, 2017·Advanced Healthcare Materials·Pranjal NautiyalArvind Agarwal
Jun 29, 2018·Journal of Nanoparticle Research : an Interdisciplinary Forum for Nanoscale Science and Technology·Sofia JulinVeikko Linko
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Sep 1, 2018·AIP Advances·Harold W HatchVincent K Shen
Sep 7, 2017·IUCrJ·Jiliang LiuKevin G Yager
Oct 3, 2019·The Journal of Chemical Physics·Michael P HowardThomas M Truskett
Oct 22, 2020·Nanomaterials·Xuehui YanYe Tian
Nov 12, 2020·Nature Communications·Lior ShaniOleg Gang
Nov 29, 2020·Nature Communications·Samuel W SchaffterRebecca Schulman
Oct 29, 2020·Angewandte Chemie·Xiao-Yun YanStephen Z D Cheng
Feb 3, 2021·The Journal of Physical Chemistry Letters·Hyeong Jin KimDavid Vaknin

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