Manipulation of Self-Assembled Nanostructure Dimensions in Molecular Janus Particles

Lee

et al. 2017

Small

Since the molecular self‐assembly of nanomaterials is sensitive to their surface properties, the molecular packing structure on the surface is essential to build the desired chemical and physical properties of nanomaterials. Here, a new nanosurfactant is proposed for the automatic construction of macroscopic surface alignment layer for liquid crystal (LC) molecules. An asymmetric nanosurfactant (C60NS) consisted of mesogenic cyanobiphenyl moieties with flexible alkyl chains and a [60]fullerene nanoatom is newly designed and precisely synthesized. The C60NS directly introduced in the anisotropic LC medium is self‐assembled into the monolayered protrusions on the surface because of its amphiphilic nature originated by asymmetrically programmed structural motif of LC‐favoring moieties and LC‐repelling groups. The monolayered protrusions constructed by the phase‐separation and self‐assembly of asymmetric C60NS nanosurfactant in the anisotropic LC media amplify and transfer the molecular orientational order from surface to bulk, and finally create the automatic vertical molecular alignment on the macroscopic length scale. The asymmetric C60NS nanosurfactant and its self‐assembly described herein can offer the direct guideline of interface engineering for the automatic molecular alignments.

Section: Introductionmentioning

confidence: 99%

Asymmetric Fullerene Nanosurfactant: Interface Engineering for Automatic Molecular Alignments

Lee

et al. 2017

Small

Polymer Crystallization

“…We reason that by replacing a flexible polymeric block by these nano‐sized MNPs, the resulting self‐assembled supramolecular structures should possess feature sizes similar to the building blocks. Following this idea of molecular design, we have demonstrated several types of novel macromolecules, such as giant surfactants (MNPs tethered with polymer chains), shape amphiphiles (conjugates of MNPs through short linkers), and giant polyhedra (nano‐sized conjugates of MNPs with rigid shaped linkers), as articulated in our recent Perspective Paper . So far, widely used MNPs are derivatives of polyhedral oligomeric silsesquioxanes (POSS) and [60]fullerenes (C 60 ) …”

Section: Supramolecular Crystallization Of Polymersmentioning

confidence: 99%

A few rediscovered and challenging topics in polymer crystals and crystallization

Yue

Liu

Feng

et al. 2018

Self Cite

This feature article discusses a few rediscovered and challenging topics in polymer crystals and crystallization. Among many research topics in this field, primary nucleation of polymers, twisted and curved polymer crystals, flow‐induced crystallization, and supramolecular crystals are selected and illustrated. This selection includes traditional topics with yet to be solved critical questions, and relatively new topics that still call for more developments. Specific attention is paid to the supramolecular crystallization of a new class of macromolecules termed “giant molecules,” which show unusual self‐assembly behaviors toward diverse hierarchical nanostructures. We believe that although being an old topic of long history, study on polymer crystallization will continue to flourish and will contribute to a more comprehensive understanding of self‐assembly in polymers.

“…With the aid of these well developed models, SAS has been broadly applied in chemical, biological and materials sciences to reveal microstructures and hierarchical structures of complex systems (Nyman, 2017;Yin, Wu, Mamontov et al, 2016;Hammouda, 2010;Zheng et al, 2017;Chu & Hsiao, 2001). However, models with more complicated topologies and fine structural details are now urgently needed because of the increasing numbers of molecules, assemblies and aggregates of various morphologies across multiple length scales that are now being investigated (Liu et al, 2016;Mü ller et al, 1995;Mü ller, Krickemeyer et al, 1999;Mü ller, Shah et al, 1999;Mü ller, Das et al, 2000;Kortz, 2000;Liu et al, 2003;Li et al, 2016). In particular, polyoxometalates (POMs), a group of nano-scaled well defined metal oxide molecular clusters from early transition metal ions, possess different shapes ranging from sphere, cylinder, core-shell, wheel and rod to lemon shaped (Mü ller et al, 2001(Mü ller et al, , 1995(Mü ller et al, , 2002Mü ller & Kö gerler, 1999;Mü ller & Gouzerh, 2012;Cronin & Mü ller, 2012;Kortz, 2000;Mü ller, Das et al, 2000).…”

Section: Introductionmentioning

confidence: 99%

Scattering functions of carved-ellipsoid-shaped particles

Yin

2019

J Appl Cryst

Motivated by the enriched topologies from the newly discovered nano-scaled molecular clusters, custom carved-ellipsoid models are built and their scattering functions are explored. The scattering functions of these models are derived in ellipsoidal coordinates. The theoretical scattering curves of these models can be further obtained through numerical calculation. These models have been successfully applied to the fitting of experimental scattering curves of some socalled wheel-shaped metal oxide molecular clusters.research papers 30 Mu Li and Panchao Yin Scattering functions of carved-ellipsoid-shaped particles