Online citations, reference lists, and bibliographies.
Please confirm you are human
(Sign Up for free to never see this)
← Back to Search

Immobilization Of Optically Active Helical Polyacetylene-Derived Nanoparticles On Graphene Oxide By Chemical Bonds And Their Use In Enantioselective Crystallization

W. Li, X. Liu, G. Qian, Jianping Deng
Published 2014 · Materials Science

Save to my Library
Download PDF
Analyze on Scholarcy
Share
The present study originally created a methodology for immobilizing polymeric nanoparticles on graphene oxide (GO) by chemical bonds, aiming at chiral functionalization of GO and simultaneously imp...
This paper references
10.1039/c3cc46741d
Synergistically enhanced electrochemical (ORR) activity of graphene oxide using boronic acid as an interlayer spacer.
E. Pourazadi (2013)
10.1021/JA40049B7
Accordion-like oscillation of contracted and stretched helices of polyacetylenes synchronized with the restricted rotation of side chains.
Yoshiaki Yoshida (2013)
10.1021/MA102486X
Low-Field NMR Investigations of Nanocomposites: Polymer Dynamics and Network Effects
A. Papon (2011)
10.1021/MA101424X
Three Mechanisms of Asymmetric Polymerization of Phenylacetylenes Having an l-Amino Ether Residue and Two Hydroxy Groups
Hongge Jia (2010)
10.1021/MA4015802
Synthesis of Helical Poly(phenylacetylene)s with Amide Linkage Bearing l-Phenylalanine and l-Phenylglycine Ethyl Ester Pendants and Their Applications as Chiral Stationary Phases for HPLC
Chunhong Zhang (2013)
10.1002/chem.201100672
Asymmetric catalysis with helical polymers.
Rik P. Megens (2011)
10.1021/cr900149d
Acetylenic polymers: syntheses, structures, and functions.
J. Liu (2009)
10.1021/la302068c
Colloid thermodynamic effect as the universal driving force for fabricating various functional composite particles.
Yunxing Li (2012)
10.1039/C0PY00333F
Polymerization of substituted acetylenes and features of the formed polymers
M. Shiotsuki (2011)
10.1021/JA01539A017
Preparation of Graphitic Oxide
W. S. Hummers (1958)
10.1021/ar300117m
Graphene as a prototype crystalline membrane.
M. Katsnelson (2013)
10.1021/ja3061112
Nanospheres with tunable size and chirality from helical polymer-metal complexes.
F. Freire (2012)
10.1039/c3nr03280a
Synthesis of graphene-supported noble metal hybrid nanostructures and their applications as advanced electrocatalysts for fuel cells.
C. Zhu (2013)
10.1021/ja303506k
Enhanced catalyst activity and enantioselectivity with chirality-switchable polymer ligand PQXphos in Pd-catalyzed asymmetric silaborative cleavage of meso-methylenecyclopropanes.
Yuto Akai (2012)
10.1016/J.PROGPOLYMSCI.2011.08.003
Graphene–DNA hybrid materials: Assembly, applications, and prospects
T. Premkumar (2012)
10.1039/C2PY20546G
Chiral polymeric microspheres grafted with optically active helical polymer chains: a new class of materials for chiral recognition and chirally controlled release
C. Song (2013)
10.1002/IJCH.201100050
Chiral Cooperativity in Helical Polymers
Vipul Jain (2011)
10.1039/C3RA22411B
Core–shell structured graphene oxide-adsorbed anisotropic poly(methyl methacrylate) microparticles and their electrorheology
W. Zhang (2013)
10.1021/ja1077602
Chiral memory via chiral amplification and selective depolymerization of porphyrin aggregates.
F. Helmich (2010)
10.1039/C1SC00308A
Chiral detection using reusable fluorescent amylose-functionalized graphene
W. Wei (2011)
10.1021/cr900162q
Helical polymers: synthesis, structures, and functions.
E. Yashima (2009)
10.1021/cr3000412
Functionalization of graphene: covalent and non-covalent approaches, derivatives and applications.
V. Georgakilas (2012)
10.1002/adma.201203229
New horizons for diagnostics and therapeutic applications of graphene and graphene oxide.
Lingyan Feng (2013)
10.1002/marc.201300342
Noncovalent chiral functionalization of graphene with optically active helical polymers.
Chonglei Ren (2013)
10.1002/marc.201100776
Magnetic Fe3O4-PS-polyacetylene composite microspheres showing chirality derived from helical substituted polyacetylene.
Dong Liu (2012)
10.1021/JP910232X
Fabrication of High-Concentration and Stable Aqueous Suspensions of Graphene Nanosheets by Noncovalent Functionalization with Lignin and Cellulose Derivatives
Q. Yang (2010)
10.1002/adma.201004099
Transparent flexible organic transistors based on monolayer graphene electrodes on plastic.
Wi Hyoung Lee (2011)
10.1039/C3TB20729C
Chiral imaging in living cells with functionalized graphene oxide.
Xiaowei Mao (2013)
10.1021/am1011436
Localized in situ polymerization on graphene surfaces for stabilized graphene dispersions.
S. Das (2011)
10.1002/(SICI)1521-3773(19991102)38:21<3138::AID-ANIE3138>3.0.CO;2-C
The Macromolecular Route to Chiral Amplification.
Green (1999)
10.1021/ac303190w
Fabrication, optimization, and use of graphene field effect sensors.
R. Stine (2013)
10.1021/nn100939n
Cyclodextrin functionalized graphene nanosheets with high supramolecular recognition capability: synthesis and host-guest inclusion for enhanced electrochemical performance.
Yujing Guo (2010)
10.1021/am300297j
Highly conductive poly(methyl methacrylate) (PMMA)-reduced graphene oxide composite prepared by self-assembly of PMMA latex and graphene oxide through electrostatic interaction.
V. Pham (2012)
10.1002/POLA.21376
Chiral soluble polymers and microspheres for enantioselective crystallization
Tali Menahem (2006)
10.1039/c3nr33708a
Environmental applications using graphene composites: water remediation and gas adsorption.
K. C. Kemp (2013)
10.1021/ar3001475
Use of organic precursors and graphenes in the controlled synthesis of carbon-containing nanomaterials for energy storage and conversion.
Shubin Yang (2013)
10.1016/J.PMATSCI.2012.03.002
Chemical functionalization of graphene and its applications
Tapas Kuila (2012)
10.1021/nl903557p
Stable aqueous dispersions of noncovalently functionalized graphene from graphite and their multifunctional high-performance applications.
X. An (2010)
10.1039/c2nr32629a
Graphene synthesis: relationship to applications.
R. Edwards (2013)
10.1021/ja4002508
Molecular mechanism of polyacrylate helix sense switching across its free energy landscape.
A. Pietropaolo (2013)
10.1021/MZ400280T
Preparation of Composite Materials by Using Graphene Oxide as a Surfactant in Ab Initio Emulsion Polymerization Systems
Stuart C Thickett (2013)
10.1021/ar800086w
Induced helical backbone conformations of self-organizable dendronized polymers.
Jonathan G Rudick (2008)
10.1002/marc.201100826
Helical polymer as mimetic enzyme catalyzing asymmetric aldol reaction.
D. Zhang (2012)
10.1039/C2JM16386A
Au/graphene hydrogel: synthesis, characterization and its use for catalytic reduction of 4-nitrophenol
J. Li (2012)
10.1021/MA2024655
One-Pot Controlled Synthesis of Homopolymers and Diblock Copolymers Grafted Graphene Oxide Using Couplable RAFT Agents
K. Jiang (2012)
10.1021/MA301250U
Chiral Microspheres Consisting Purely of Optically Active Helical Substituted Polyacetylene: The First Preparation via Precipitation Polymerization and Application in Enantioselective Crystallization
Dongyue Zhang (2012)
10.1021/MA035735D
Conformational transition between random coil and helix of poly(N-propargylamides)
Jianping Deng (2004)
10.1038/nature06016
Preparation and characterization of graphene oxide paper
D. Dikin (2007)
10.1039/B918132F
Hollow polymeric microspheres grafted with optically active helical polymer chains: Preparation and their chiral recognition ability
Kang Zhou (2010)
10.1002/marc.201300498
Optically active particles of chiral polymers.
C. Song (2013)
10.1039/c3cc46807k
Enhanced frequency response of a highly transparent PVDF-graphene based thin film acoustic actuator.
J. Lee (2013)
10.1002/ADFM.201100113
Hollow Two‐Layered Chiral Nanoparticles Consisting of Optically Active Helical Polymer/Silica: Preparation and Application for Enantioselective Crystallization
B. Chen (2011)
10.1002/ADFM.201200888
Spongy Graphene as a Highly Efficient and Recyclable Sorbent for Oils and Organic Solvents
H. Bi (2012)
10.1002/ADFM.200600408
Enantioselective Crystallization on Chiral Polymeric Microspheres
D. Medina (2007)
10.1016/j.chroma.2012.09.101
A novel open-tubular capillary electrochromatography using β-cyclodextrin functionalized graphene oxide-magnetic nanocomposites as tunable stationary phase.
Ru-Ping Liang (2012)
10.1021/IC50092A027
.pi.-Bonded complexes of the tetraphenylborate ion with rhodium(I) and iridium(I)
R. Schrock (1970)
10.1002/adma.201203567
Solvated graphenes: an emerging class of functional soft materials.
C. Cheng (2013)
10.1016/J.JCAT.2012.11.024
An effective heterogeneous l-proline catalyst for the direct asymmetric aldol reaction using graphene oxide as support
Rong Tan (2013)



This paper is referenced by
10.1039/C6TB01757F
Chiral porous hybrid particles constructed by helical substituted polyacetylene covalently bonded organosilica for enantioselective release.
J. Liang (2016)
10.1021/ACS.IECR.6B01031
Materials Established for Enantioselective Release of Chiral Compounds
Huli Yu (2016)
10.1080/15583724.2015.1136642
Emulsion Polymerization of Acetylenics for Constructing Optically Active Helical Polymer Nanoparticles
Biao Zhao (2017)
10.1016/J.POLYMER.2016.08.098
Bioinspired hybrid material composed of helical polymer grafts and graphene oxide: Reversible transformation of particulate and extended structures of the grafts and application in chiral enrichment
W. Li (2016)
10.1039/C5PY01549A
Helical polymer/Fe3O4 NPs constructing optically active, magnetic core/shell microspheres: preparation by emulsion polymerization and recycling application in enantioselective crystallization
H. Chen (2016)
10.1021/acsami.6b02654
Optically Active Particles with Tunable Morphology: Prepared by Embedding Graphene Oxide/Fe3O4 in Helical Polyacetylene.
W. Li (2016)
10.1016/J.POLYMER.2018.02.012
Chiral, crosslinked, and micron-sized spheres of substituted polyacetylene prepared by precipitation polymerization
H. Huang (2018)
10.1016/J.CEJ.2016.08.061
Boronic acid-containing optically active microspheres: Preparation, chiral adsorption and chirally controlled release towards drug DOPA
Xuesheng Deng (2016)
10.1016/J.POLYMER.2017.09.013
Ring opening precipitation polymerization for preparing polylactide particles with tunable size and porous structure and their application as chiral material
B. Yang (2017)
10.1016/J.PROGPOLYMSCI.2017.09.004
Polymerizations Based on Triple-bond Building Blocks
Y. Liu (2017)
10.1021/acsami.6b04057
Construction of Molecularly Imprinted Polymer Microspheres by Using Helical Substituted Polyacetylene and Application in Enantio-Differentiating Release and Adsorption.
J. Liang (2016)
10.1002/tcr.201500298
Optically Active Hybrid Materials Constructed from Helically Substituted Polyacetylenes.
Huanyu Zhang (2016)
10.1080/1536383x.2020.1852548
Facile and environmental-friendly preparation of alkynyl-functionalized graphene oxide by epoxy ring-opening
Aojie Liu (2020)
10.1021/am502194b
Chiral functionalization of graphene oxide by optically active helical-substituted polyacetylene chains and its application in enantioselective crystallization.
W. Li (2014)
10.1002/PAT.3615
Chiral, pH responsive hydrogels constructed by N‐Acryloyl‐alanine and PEGDA/α‐CD inclusion complex: preparation and chiral release ability
J. Liu (2016)
10.1039/C8PY01759J
Chiral, thermal-responsive hydrogels containing helical hydrophilic polyacetylene: preparation and enantio-differentiating release ability
Huilei Wang (2019)
10.1021/ACS.MACROMOL.5B00811
Helix-Sense-Selective Precipitation Polymerization of Achiral Monomer for Preparing Optically Active Helical Polymer Particles
H. Huang (2015)
10.1016/J.REACTFUNCTPOLYM.2015.05.007
Optically active, magnetic microspheres: Constructed by helical substituted polyacetylene with pendent prolineamide groups and applied as catalyst for Aldol reaction
Jiexuan Song (2015)
10.1021/ACS.CHEMREV.6B00354
Supramolecular Helical Systems: Helical Assemblies of Small Molecules, Foldamers, and Polymers with Chiral Amplification and Their Functions.
E. Yashima (2016)
10.1002/app.49167
Optically active hybrid particles constructed by chiral helical substituted polyacetylene and POSS
Jiaqi Shang (2020)
10.1016/J.ACA.2019.02.031
Recent advances in the fabrication and application of nanomaterial-based enzymatic microsystems in chemical and biological sciences.
Tingting Hong (2019)
10.1016/J.POLYMER.2018.03.022
Dual-drug loaded Janus graphene oxide-based thermoresponsive nanoparticles for targeted therapy
S. Khoee (2018)
10.1039/C5PY01945A
Optically active hollow nanoparticles constructed by chirally helical substituted polyacetylene
Jiangfeng Lin (2016)
10.1002/POLA.28599
Grafting polymerization of single-handed helical poly(phenyl isocyanide)s on graphene oxide and their application in enantioselective separation
Y. Xiao (2017)
10.1039/C6RA04762A
Hydrophobic association hydrogels based on N-acryloyl-alanine and stearyl acrylate using gelatin as emulsifier
Z. Cui (2016)
10.1039/C4RA12267D
Optically active helical polyacetylene/Fe3O4 composite microspheres: prepared by precipitation polymerization and used for enantioselective crystallization
H. Chen (2014)
10.1002/marc.201800072
Seed-Surface Grafting Precipitation Polymerization for Preparing Microsized Optically Active Helical Polymer Core/Shell Particles and Their Application in Enantioselective Crystallization.
Biao Zhao (2018)
10.1021/IE503114Z
Optically Active, Magnetic Microparticles: Constructed by Chiral Helical Substituted Polyacetylene/Fe3O4 Nanoparticles and Recycled for Uses in Enantioselective Crystallization
H. Zhang (2014)
10.1039/C4RA16466K
Chiral, fluorescent microparticles constructed by optically active helical substituted polyacetylene: preparation and enantioselective recognition ability
H. Huang (2015)
10.1002/IJCH.201800174
Chiral Polymers and Polymeric Particles for Enantioselective Crystallization
D. Medina (2018)
10.1007/s10853-016-0702-1
Chiral 3D porous hybrid foams constructed by graphene and helically substituted polyacetylene: preparation and application in enantioselective crystallization
B. Wang (2016)
10.1039/c7nr02337e
Helix-sense-selective co-precipitation for preparing optically active helical polymer nanoparticles/graphene oxide hybrid nanocomposites.
H. Huang (2017)
See more
Semantic Scholar Logo Some data provided by SemanticScholar