Formation of chiral, three-dimensional aggregates by self-assembly of helical components

被引:14
|
作者
Boncheva, M [1 ]
Bruzewicz, DA [1 ]
Whitesides, GM [1 ]
机构
[1] Harvard Univ, Dept Chem & Chem Biol, Cambridge, MA 02138 USA
来源
LANGMUIR | 2003年 / 19卷 / 15期
关键词
D O I
10.1021/la0208934
中图分类号
O6 [化学];
学科分类号
0703 ;
摘要
This work describes the self-assembly of millimeter-sized helical components-fabricated by replica molding from sections of drill bits and bolts-into 3D aggregates via capillary forces. The components form aggregates of different geometry: components derived from drill bits formed regular helices, and those derived from bolts formed irregular warped sheets. Enantioselective interactions between components derived from drill bits resulted in the formation of aggregates with complex structures, including enantiomerically pure helices, aggregates with multiple helical segments, and chiral aggregates formed from achiral components, i.e., spheres.
引用
收藏
页码:6066 / 6071
页数:6
相关论文
共 50 条
  • [31] Self-assembly for three dimensional integration of functional electrical components
    Cannon, Andrew H.
    Hua, Yueming
    Henderson, Clifford L.
    King, William P.
    ADVANCES IN ELECTRONIC PACKAGING 2005, PTS A-C, 2005, : 1943 - 1948
  • [32] Programmable self-assembly of three-dimensional nanostructures from 10,000 unique components
    Ong, Luvena L.
    Hanikel, Nikita
    Yaghi, Omar K.
    Grun, Casey
    Strauss, Maximilian T.
    Bron, Patrick
    Lai-Kee-Him, Josephine
    Schueder, Florian
    Wang, Bei
    Wang, Pengfei
    Kishi, Jocelyn Y.
    Myhrvold, Cameron
    Zhu, Allen
    Jungmann, Ralf
    Bellot, Gaetan
    Ke, Yonggang
    Yin, Peng
    NATURE, 2017, 552 (7683) : 72 - +
  • [33] Programmable self-assembly of three-dimensional nanostructures from 10,000 unique components
    Luvena L. Ong
    Nikita Hanikel
    Omar K. Yaghi
    Casey Grun
    Maximilian T. Strauss
    Patrick Bron
    Josephine Lai-Kee-Him
    Florian Schueder
    Bei Wang
    Pengfei Wang
    Jocelyn Y. Kishi
    Cameron Myhrvold
    Allen Zhu
    Ralf Jungmann
    Gaetan Bellot
    Yonggang Ke
    Peng Yin
    Nature, 2017, 552 : 72 - 77
  • [34] Three-dimensional liquid surfaces through nanoparticle self-assembly
    Tseng, Tzu-Chia
    McGarrity, Erin S.
    Kiel, Jonathan W.
    Duxbury, Phillip M.
    Mackay, Michael E.
    Frischknecht, Amalie L.
    Asokan, Subashini
    Wong, Michael S.
    SOFT MATTER, 2010, 6 (07) : 1533 - 1538
  • [35] Erratum: Self-assembly of DNA into nanoscale three-dimensional shapes
    Shawn M. Douglas
    Hendrik Dietz
    Tim Liedl
    Björn Högberg
    Franziska Graf
    William M. Shih
    Nature, 2009, 459 : 1154 - 1154
  • [36] Complex three-dimensional self-assembly in proxies for atmospheric aerosols
    C. Pfrang
    K. Rastogi
    E. R. Cabrera-Martinez
    A. M. Seddon
    C. Dicko
    A. Labrador
    T. S. Plivelic
    N. Cowieson
    A. M. Squires
    Nature Communications, 8
  • [37] Supramolecular self-assembly of three-dimensional polyaniline and polypyrrole crystals
    Tao, Yulun
    Li, Juchuan
    Xie, Anjian
    Li, Shikuo
    Chen, Ping
    Ni, Liping
    Shen, Yuhua
    CHEMICAL COMMUNICATIONS, 2014, 50 (84) : 12757 - 12760
  • [38] Self-Assembly of Functional Discrete Three-Dimensional Architectures in Water
    Taylor, Lauren L. K.
    Riddell, Imogen A.
    Smulders, Maarten M. J.
    ANGEWANDTE CHEMIE-INTERNATIONAL EDITION, 2019, 58 (05) : 1280 - 1307
  • [39] Guided three-dimensional molecular self-assembly on silicon substrates
    Chang, Chia-Ching
    Sun, Kien Wen
    Kan, Lou-Sing
    Kuan, Chieh-Hsiung
    APPLIED PHYSICS LETTERS, 2006, 88 (26)
  • [40] An engineered virus as a scaffold for three-dimensional self-assembly on the nanoscale
    Blum, AS
    Soto, CM
    Wilson, CD
    Brower, TL
    Pollack, SK
    Schull, TL
    Chatterji, A
    Lin, TW
    Johnson, JE
    Amsinck, C
    Franzon, P
    Shashidhar, R
    Ratna, BR
    SMALL, 2005, 1 (07) : 702 - 706
12345