Access the full text.
Sign up today, get DeepDyve free for 14 days.
Junliang Yang, D. Yan, T. Jones (2015)
Molecular template growth and its applications in organic electronics and optoelectronics.Chemical reviews, 115 11
I. Horcas, R. Fernandez, J. Gómez‐Rodríguez, J. Colchero, J. Gómez‐Herrero, A. Baró (2007)
WSXM: a software for scanning probe microscopy and a tool for nanotechnology.The Review of scientific instruments, 78 1
A. Mayer, P. Lambin, R. Langlet (2006)
Charge-dipole model to compute the polarization of fullerenesApplied Physics Letters, 89
D. Cui, J. Macleod, M. Ebrahimi, F. Rosei (2017)
Selective binding in different adsorption sites of a 2D covalent organic frameworkCrystEngComm, 19
J. Goodby (1983)
Relationships Between Miscibility Grouping and Smectic Mesophase StructureMolecular Crystals and Liquid Crystals, 92
G. Bautista-Carbajal, A. Moncho-Jordá, G. Odriozola (2013)
Further details on the phase diagram of hard ellipsoids of revolution.The Journal of chemical physics, 138 6
Xuchuan Jiang, Q. Zeng, Chuyang Chen, A. Yu (2011)
Self-assembly of particles: some thoughts and commentsJournal of Materials Chemistry, 21
R. Zope (2007)
The static dipole polarizability of C70 fullereneJournal of Physics B: Atomic, Molecular and Optical Physics, 40
S. Stepanow, Magalí Lingenfelder, A. Dmitriev, H. Spillmann, E. Delvigne, N. Lin, Xiaobing Deng, C. Cai, J. Barth, K. Kern (2004)
Steering molecular organization and host–guest interactions using two-dimensional nanoporous coordination systemsNature Materials, 3
J. Macleod, O. Ivasenko, C. Fu, T. Taerum, F. Rosei, D. Perepichka (2009)
Supramolecular ordering in oligothiophene-fullerene monolayers.Journal of the American Chemical Society, 131 46
D. Sabirov, R. Bulgakov (2011)
Polarizability of oxygen-containing fullerene derivatives С60Оn and С70О with epoxide/oxidoannulene moietiesChemical Physics Letters, 506
S. Ryu, D. Yoon (2016)
Liquid crystal phases in confined geometriesLiquid Crystals, 43
D. Deak, Kyriakos Porfyrakis, M. Castell (2007)
C70 ordering on nanostructured SrTiO3(001).Chemical communications, 28
J. Dienstmaier, A. Gigler, Andreas Goetz, P. Knochel, T. Bein, A. Lyapin, S. Reichlmaier, W. Heckl, M. Lackinger (2011)
Synthesis of well-ordered COF monolayers: surface growth of nanocrystalline precursors versus direct on-surface polycondensation.ACS nano, 5 12
Joachim Stöhr, M. Samant, J. Lüning, Alessandro Callegari, Praveen Chaudhari, J. Doyle, James Lacey, Shui-Chih Lien, Sampath Purushothaman, J. Speidell (2001)
Liquid Crystal Alignment on Carbonaceous Surfaces with Orientational OrderScience, 292
E. Lacaze, J. Michel, M. Goldmann, M. Gailhanou, M. Boissieu, M. Alba (2004)
Bistable nematic and smectic anchoring in the liquid crystal octylcyanobiphenyl (8CB) adsorbed on a MoS2 single crystal.Physical review. E, Statistical, nonlinear, and soft matter physics, 69 4 Pt 1
Richard Drawhorn, N. Abbott (1995)
Anchoring of Nematic Liquid Crystals on Self-Assembled Monolayers Formed from Alkanethiols on Semitransparent Films of GoldThe Journal of Physical Chemistry, 99
L. Sánchez, R. Otero, J. Gallego, R. Miranda, N. Martín (2009)
Ordering fullerenes at the nanometer scale on solid surfaces.Chemical reviews, 109 5
M. Nakata, G. Zanchetta, M. Buscaglia, T. Bellini, N. Clark (2008)
Liquid crystal alignment on a chiral surface: interfacial interaction with sheared DNA films.Langmuir : the ACS journal of surfaces and colloids, 24 18
Yi-Bo Wang, Zhenyang Lin (2003)
Supramolecular interactions between fullerenes and porphyrins.Journal of the American Chemical Society, 125 20
F. Rosei, M. Schunack, Y. Naitoh, P. Jiang, A. Gourdon, E. Laegsgaard, I. Stensgaard, C. Joachim, F. Besenbacher (2003)
Properties of large organic molecules on metal surfacesProgress in Surface Science, 71
B. Berne (1981)
Modification of the overlap potential to mimic a linear site-site potentialJournal of Chemical Physics, 74
Wang, Yurov, Hashizume, Shinohara, Sakurai (1994)
Imaging of C70 intramolecular structures with scanning tunneling microscopy.Physical review. B, Condensed matter, 49 20
K. Thirunavukkuarasu, V. Long, J. Musfeldt, Ferenc Borondics, G. Klupp, K. Kamarás, C. Kuntscher (2011)
Rotational Dynamics in C70: Temperature- and Pressure-Dependent Infrared StudiesJournal of Physical Chemistry C, 115
Soichiro Yoshimoto, E. Tsutsumi, R. Narita, Y. Murata, M. Murata, Koichi Fujiwara, K. Komatsu, O. Ito, K. Itaya (2007)
Epitaxial supramolecular assembly of fullerenes formed by using a coronene template on a Au(111) surface in solution.Journal of the American Chemical Society, 129 14
Lan Chen, Hui Li, B. Feng, Zijing Ding, Jinglan Qiu, P. Cheng, Kehui Wu, S. Meng (2012)
Spontaneous symmetry breaking and dynamic phase transition in monolayer silicene.Physical review letters, 110 8
D. Cui, M. Ebrahimi, F. Rosei, J. Macleod (2017)
Control of Fullerene Crystallization from 2D to 3D through Combined Solvent and Template Effects.Journal of the American Chemical Society, 139 46
G. Schweicher, Y. Olivier, V. Lemaur, Y. Geerts (2014)
What Currently Limits Charge Carrier Mobility in Crystals of Molecular SemiconductorsIsrael Journal of Chemistry, 54
J. Dienstmaier, D. Medina, Mirjam Dogru, P. Knochel, T. Bein, W. Heckl, M. Lackinger (2012)
Isoreticular two-dimensional covalent organic frameworks synthesized by on-surface condensation of diboronic acids.ACS nano, 6 8
D. Smith, H. H�RBER, C. Gerber, G. Binnig (1989)
Smectic Liquid Crystal Monolayers on Graphite Observed by Scanning Tunneling MicroscopyScience, 245
D. Cui, M. Ebrahimi, J. Macleod, F. Rosei (2018)
Template-Driven Dense Packing of Pentagonal Molecules in Monolayer Films.Nano letters, 18 12
D. Cui, Jennifer MacLeod, Jennifer MacLeod, Maryam Ebrahimi, D. Perepichka, Federico Rosei, Federico Rosei, Federico Rosei (2015)
Solution and air stable host/guest architectures from a single layer covalent organic framework.Chemical communications, 51 92
O. Ivasenko, J. Macleod, K. Chernichenko, E. Balenkova, R. Shpanchenko, V. Nenajdenko, F. Rosei, D. Perepichka (2009)
Supramolecular assembly of heterocirculenes in 2D and 3D.Chemical communications, 10
Yinying Wei, J. Reutt-Robey (2011)
Directed organization of C70 kagome lattice by titanyl phthalocyanine monolayer template.Journal of the American Chemical Society, 133 39
F. Cicoira, C. Santato, F. Rosei (2008)
Two-dimensional nanotemplates as surface cues for the controlled assembly of organic molecules.Topics in current chemistry, 285
Yanfang Geng, Ping Li, J. Xue, Dapeng Luo, Junyong Zhang, Lijin Shu, K. Deng, Jingli Xie, Q. Zeng (2017)
Specific distribution of orientated C70-fullerene triggered by solvent-tuned macrocycle adlayerNano Research, 10
S. Fejer, D. Chakrabarti, D. Wales (2011)
Self-assembly of anisotropic particlesSoft Matter, 7
D. Cui, J. Macleod, F. Rosei (2018)
Probing functional self-assembled molecular architectures with solution/solid scanning tunnelling microscopy.Chemical communications, 54 75
S. Saito, A. Oshiyama (1991)
Electronic and geometric structures of C70.Physical review. B, Condensed matter, 44 20
B. Lu, T. Iimori, K. Sakamoto, K. Nakatsuji, F. Rosei, F. Komori (2008)
Fullerene on Nitrogen-Adsorbed Cu(001) Nanopatterned Surfaces: From Preferential Nucleation to Layer-by-Layer GrowthJournal of Physical Chemistry C, 112
M. Hara, Y. Iwakabe, K. Tochigi, H. Sasabe, A. Garito, A. Yamada (1990)
Anchoring structure of smectic liquid-crystal layers on MoS2 observed by scanning tunnelling microscopyNature, 344
S. Glotzer, M. Solomon (2007)
Anisotropy of building blocks and their assembly into complex structures.Nature materials, 6 8
R. Bakhtizin, T. Hashizume, W. Wang, T. Sakurai (1997)
Scanning tunneling microscopy of fullerenes on metal and semiconductor surfacesPhysics-Uspekhi, 40
L. Rochford, Tim Jones, Christian Nielsen (2016)
Epitaxial Templating of C60 with a Molecular Monolayer.The journal of physical chemistry letters, 7 17
F. Rosei (2004)
Nanostructured surfaces: challenges and frontiers in nanotechnologyJournal of Physics: Condensed Matter, 16
C. Mishra, Amritha Rangarajan, R. Ganapathy (2013)
Two-step glass transition induced by attractive interactions in quasi-two-dimensional suspensions of ellipsoidal particles.Physical review letters, 110 18
Hanying Li, G. Giri, J. Tok, Zhenan Bao (2013)
Toward high-mobility organic field-effect transistors: Control of molecular packing and large-area fabrication of single-crystal-based devicesMRS Bulletin, 38
J. Theobald, N. Oxtoby, M. Phillips, N. Champness, P. Beton (2003)
Controlling molecular deposition and layer structure with supramolecular surface assembliesNature, 424
G. Bautista-Carbajal, G. Odriozola (2014)
Phase diagram of two-dimensional hard ellipses.The Journal of chemical physics, 140 20
F. Rosei, R. Rosei (2002)
Atomic description of elementary surface processes: diffusion and dynamicsSurface Science, 500
F. Cicoira, F. Rosei (2006)
Playing Tetris at the nanoscaleSurface Science, 600
Hanim Kim, Sunhee Lee, T. Shin, Yun Cha, Eva Korblova, D. Walba, N. Clark, S. Lee, D. Yoon (2013)
Alignment of helical nanofilaments on the surfaces of various self-assembled monolayersSoft Matter, 9
N. Jana (2004)
Shape effect in nanoparticle self-assembly.Angewandte Chemie, 43 12
S. Feyter (2011)
Surface patterning: From 2D to 3D.Nature chemistry, 3 1
C. Tschierske (2013)
Development of structural complexity by liquid-crystal self-assembly.Angewandte Chemie, 52 34
J. Goodby, R. Mandle, E. Davis, Tingjun Zhong, S. Cowling (2015)
What makes a liquid crystal? The effect of free volume on soft matterLiquid Crystals, 42
Bo Li, Di Zhou, Yilong Han (2016)
Assembly and phase transitions of colloidal crystalsNature Reviews Materials, 1
The surface‐induced anchoring effect is a well‐developed technique to control the growth of liquid crystals (LCs). Nevertheless, a defined nanometer‐scale template has never been used to induce the anchored growth of LCs with molecular building units. Scanning tunneling microscopy results at the solid/liquid interface reveal that a 2D covalent organic framework (COF‐1) can offer an anchoring effect to template C70 molecules into forming several LC mesophases, which cannot be obtained under other conditions. Through comparison with the C60 system, a stepwise breakdown in ordering of C70 LC is observed. The process is described in terms of the effects of molecular anisotropy on the epitaxial growth of molecular crystals. The results suggest that using a surface‐confined template to anchor the initial layer of LC molecules can be a modular and potentially broadly applicable approach for organizing molecular mesogens into LCs.
Small – Wiley
Published: Nov 1, 2019
Keywords: ; ; ;
Read and print from thousands of top scholarly journals.
Already have an account? Log in
Bookmark this article. You can see your Bookmarks on your DeepDyve Library.
To save an article, log in first, or sign up for a DeepDyve account if you don’t already have one.
Copy and paste the desired citation format or use the link below to download a file formatted for EndNote
Access the full text.
Sign up today, get DeepDyve free for 14 days.
All DeepDyve websites use cookies to improve your online experience. They were placed on your computer when you launched this website. You can change your cookie settings through your browser.