Patchy and Janus Nanoparticles by Self-Organization of Mixtures of Fluorinated and Hydrogenated Alkanethiolates on the Surface of a Gold Core.
暂无分享,去创建一个
Sabrina Pricl | Paola Posocco | Domenico Marson | D. Marson | S. Pricl | P. Posocco | S. Polizzi | Maria Şologan | Stefano Polizzi | Paolo Pengo | Silvia Boccardo | Lucia Pasquato | L. Pasquato | P. Pengo | Maria Şologan | Silvia Boccardo
[1] Maurizio Fermeglia,et al. A molecular simulation approach to the prediction of the morphology of self-assembled nanoparticles in diblock copolymers , 2010 .
[2] Shaowei Chen,et al. Janus nanoparticles: reaction dynamics and NOESY characterization , 2009 .
[3] Steven J. Plimpton,et al. Accelerating dissipative particle dynamics simulations for soft matter systems , 2015 .
[4] M. Stenzel,et al. Origami with ABC Triblock Terpolymers Based on Glycopolymers: Creation of Virus-Like Morphologies. , 2015, ACS macro letters.
[5] Arnold T. Hagler,et al. An ab Initio CFF93 All-Atom Force Field for Polycarbonates , 1994 .
[6] Ulrich W. Suter,et al. Atomistic modeling of mechanical properties of polymeric glasses , 1986 .
[8] C. Gentilini,et al. Morphology of mixed-monolayers protecting metal nanoparticles , 2010 .
[9] Maurizio Fermeglia,et al. Multiscale Computer Simulation Studies of Water-Based Montmorillonite/Poly(ethylene oxide) Nanocomposites , 2009 .
[10] M. Fermeglia,et al. A complete multiscale modelling approach for polymer-clay nanocomposites. , 2009, Chemistry.
[11] Maurizio Fermeglia,et al. Estimation of the Binding Energy in Random Poly(Butylene terephtalate-co-thiodiethylene terephtalate) Copolyesters/Clay Nanocomposites via Molecular Simulation , 2004 .
[12] Maurizio Fermeglia,et al. Computer simulation of polypropylene/organoclay nanocomposites: characterization of atomic scale structure and prediction of binding energy , 2004 .
[13] Francesco Stellacci,et al. Determination of monolayer-protected gold nanoparticle ligand–shell morphology using NMR , 2012, Nature Communications.
[14] Steve Plimpton,et al. Fast parallel algorithms for short-range molecular dynamics , 1993 .
[15] Maurizio Fermeglia,et al. Modeling hierarchically structured nanoparticle/diblock copolymer systems , 2013 .
[16] S. Glotzer,et al. Size limitations for the formation of ordered striped nanoparticles. , 2008, Journal of the American Chemical Society.
[17] Xiangxiang Liu,et al. Size Dependent Cellular Uptake of Rod-like Bionanoparticles with Different Aspect Ratios , 2016, Scientific Reports.
[18] P. B. Warren,et al. DISSIPATIVE PARTICLE DYNAMICS : BRIDGING THE GAP BETWEEN ATOMISTIC AND MESOSCOPIC SIMULATION , 1997 .
[19] C. Majumder,et al. Structural investigation of thiophene thiol adsorption on Au nanoclusters: Influence of back bonds , 2002 .
[20] R. K. Mishra,et al. Thermodynamically consistent force fields for the assembly of inorganic, organic, and biological nanostructures: the INTERFACE force field. , 2013, Langmuir : the ACS journal of surfaces and colloids.
[21] B. Grady,et al. Surfactant aggregates templated by lateral confinement. , 2015, The journal of physical chemistry. B.
[22] G. Sevink,et al. Mesoscale modeling of block copolymer nanocomposites , 2012 .
[23] R. Murray,et al. Gold nanoparticles with perfluorothiolate ligands. , 2008, Langmuir.
[24] Sharon C. Glotzer,et al. Tethered Nano Building Blocks: Toward a Conceptual Framework for Nanoparticle Self-Assembly , 2003 .
[25] Maurizio Fermeglia,et al. Self-organization of mixtures of fluorocarbon and hydrocarbon amphiphilic thiolates on the surface of gold nanoparticles. , 2012, ACS nano.
[26] S. Bell,et al. Controlling Assembly of Mixed Thiol Monolayers on Silver Nanoparticles to Tune Their Surface Properties , 2012, ACS nano.
[27] Maurizio Fermeglia,et al. Highly grafted polystyrene/polyvinylpyridine polymer gold nanoparticles in a good solvent: effects of chain length and composition. , 2016, Soft matter.
[28] S. Glotzer,et al. Biomimetic Hierarchical Assembly of Helical Supraparticles from Chiral Nanoparticles. , 2016, ACS nano.
[29] S. Majumdar,et al. Estimation of interfacial tension for immiscible and partially miscible liquid systems by Dissipative Particle Dynamics , 2014 .
[30] F. Mancin,et al. Lanthanide-based NMR: a tool to investigate component distribution in mixed-monolayer-protected nanoparticles. , 2012, Journal of the American Chemical Society.
[31] D. Castner,et al. Semifluorinated/Hydrogenated Alkylthiol Thin Films: A Comparison between Disulfides and Thiol Binary Mixtures , 2000 .
[32] Maurizio Fermeglia,et al. Combined Mesoscale/Experimental Study of Selective Placement of Magnetic Nanoparticles in Diblock Copolymer Films via Solvent Vapor Annealing , 2016 .
[33] S. Glotzer,et al. Atomistic Simulation Study of Striped Phase Separation in Mixed-Ligand Self-Assembled Monolayer Coated Nanoparticles , 2010 .
[34] R. Cortes-Huerto,et al. Gold Nanoparticle Internal Structure and Symmetry Probed by Unified Small-Angle X-ray Scattering and X-ray Diffraction Coupled with Molecular Dynamics Analysis. , 2015, Nano letters.
[35] José Mario Martínez,et al. PACKMOL: A package for building initial configurations for molecular dynamics simulations , 2009, J. Comput. Chem..
[36] K Schulten,et al. VMD: visual molecular dynamics. , 1996, Journal of molecular graphics.
[37] Francesco Stellacci,et al. From homoligand- to mixed-ligand- monolayer-protected metal nanoparticles: a scanning tunneling microscopy investigation. , 2006, Journal of the American Chemical Society.
[38] Self-assembly and mesophase formation in a non-ionic chromonic liquid crystal system: insights from dissipative particle dynamics simulations. , 2014, Physical chemistry chemical physics : PCCP.
[39] Andreas Walther,et al. Janus particles: synthesis, self-assembly, physical properties, and applications. , 2013, Chemical reviews.
[40] E. Mileo,et al. Formation of patches on 3D SAMs driven by thiols with immiscible chains observed by ESR spectroscopy. , 2009, Angewandte Chemie.
[41] T. Darden,et al. Efficient particle-mesh Ewald based approach to fixed and induced dipolar interactions , 2000 .
[42] A. V. Berezkin,et al. Simulation of End-Coupling Reactions at a Polymer-Polymer Interface: The Mechanism of Interfacial Roughness Development , 2011 .
[43] F. Stellacci,et al. Effects of surface compositional and structural heterogeneity on nanoparticle-protein interactions: different protein configurations. , 2014, ACS nano.
[44] P. Spanu,et al. Hydrophobins and the interactions between fungi and plants. , 2002, Molecular plant pathology.
[45] Jisun Im,et al. Anomalous vapor sensor response of a fluorinated alkylthiol-protected gold nanoparticle film. , 2009, Langmuir : the ACS journal of surfaces and colloids.
[46] David J. Weinberg,et al. Control of the Redox Activity of Quantum Dots through Introduction of Fluoroalkanethiolates into Their Ligand Shells. , 2016, Journal of the American Chemical Society.
[47] Maurizio Fermeglia,et al. Computer simulation of nylon-6/organoclay nanocomposites: prediction of the binding energy , 2003 .
[48] Jianzhong Du,et al. Anisotropic particles with patchy, multicompartment and Janus architectures: preparation and application. , 2011, Chemical Society reviews.
[49] Francesco Stellacci,et al. Spontaneous assembly of subnanometre-ordered domains in the ligand shell of monolayer-protected nanoparticles , 2004, Nature materials.
[50] Aleksey Vishnyakov,et al. Prediction of the Critical Micelle Concentration of Nonionic Surfactants by Dissipative Particle Dynamics Simulations. , 2013, The journal of physical chemistry letters.
[51] Zhan-Wei Li,et al. A versatile model for soft patchy particles with various patch arrangements. , 2016, Soft matter.
[52] J. McLean,et al. Nanoscale phase segregation of mixed thiolates on gold nanoparticles. , 2011, Angewandte Chemie.
[53] Charles S. Johnson,et al. NMR Diffusion, Relaxation, and Spectroscopic Studies of Water Soluble, Monolayer-Protected Gold Nanoclusters† , 2001 .
[54] S. Hasegawa,et al. Size Evolution of Alkanethiol-Protected Gold Nanoparticles by Heat Treatment in the Solid State , 2003 .
[55] Sabrina Pricl,et al. Interfacial tension of oil/water emulsions with mixed non-ionic surfactants: comparison between experiments and molecular simulations , 2016 .
[56] S. Polizzi,et al. Routes to the preparation of mixed monolayers of fluorinated and hydrogenated alkanethiolates grafted on the surface of gold nanoparticles. , 2016, Faraday discussions.
[57] Francesco Stellacci,et al. Surface-structure-regulated cell-membrane penetration by monolayer-protected nanoparticles. , 2008, Nature materials.
[58] Maurizio Fermeglia,et al. Polymer-clay nanocomposites: a multiscale molecular modeling approach. , 2007, The journal of physical chemistry. B.
[59] S. Glotzer,et al. Entropy-mediated patterning of surfactant-coated nanoparticles and surfaces. , 2007, Physical review letters.
[60] S. Jameel,et al. Virus entry paradigms , 2009, Amino Acids.