Micellization behavior of star-block copolymers in a selective solvent: A Brownian dynamics simulation approach.
暂无分享,去创建一个
C. Ahn | W. Jo | J. Huh | Kwang Hee Kim
[1] D. Han,et al. Micellization and Gelation of Aqueous Solutions of Star-Shaped PLLA-PEO Block Copolymers , 2003 .
[2] W. Jo,et al. Effect of chain topology of block copolymer on micellization: Ring versus linear block copolymer , 2003 .
[3] Seung-hyun Kim,et al. A Monte Carlo simulation for the micellization of ABA- and BAB-type triblock copolymers in a selective solvent. II. Effects of the block composition , 2002 .
[4] J. Leroux,et al. Synthesis of novel amphiphilic star-shaped poly(ε-caprolactone)-block-poly(N-(2-hydroxypropyl)methacrylamide) by combination of ring-opening and chain transfer polymerization , 2002 .
[5] Y. Termonia. Sphere‐to‐cylinder transition in dilute solutions of diblock copolymers , 2002 .
[6] C. Hall,et al. Micellar behavior in supercritical solvent-surfactant systems from lattice Monte Carlo simulations , 2002 .
[7] D. Han,et al. Synthesis and Characterization of Star-Shaped PLLA-PEO Block Copolymers with Temperature-Sensitive Sol-Gel Transition Behavior , 2001 .
[8] Seung-hyun Kim,et al. A Monte Carlo simulation for the micellization of ABA- and BAB-type triblock copolymers in a selective solvent , 2001 .
[9] C. Booth,et al. Effects of block architecture and composition on the association properties of poly(oxyalkylene) copolymers in aqueous solution , 2000 .
[10] A. Khokhlov,et al. Effect of Architecture on the Micellization Properties of Block Copolymers: A2B Miktoarm Stars vs AB Diblocks , 2000 .
[11] R. Hentschke,et al. Simulated Phase Behavior of Model Surfactant Solutions , 2000 .
[12] Christine Allen,et al. Nano-engineering block copolymer aggregates for drug delivery , 1999 .
[13] G. Hadziioannou,et al. Amphiphile micelles formed by polystyrene/poly(2-vinyl pyridine) heteroarm star copolymers in toluene , 1999 .
[14] J. Hedrick,et al. Starlike Block Copolymers with Amphiphilic Arms as Models for Unimolecular Micelles , 1999 .
[15] K. Binder,et al. Monte Carlo simulation of micelle formation in block copolymer solutions , 1998 .
[16] A. Chakrabarti,et al. Self-assembly of neutral and ionic surfactants: An off-lattice Monte Carlo approach , 1998 .
[17] S. Webber,et al. Polymer Micelles from Poly(acrylic acid)-graft-polystyrene , 1998 .
[18] A. D. Mackie,et al. Aggregation Behavior of a Lattice Model for Amphiphiles , 1997 .
[19] T. A. Hatton,et al. Stochastic dynamics simulation of surfactant self-assembly , 1997 .
[20] Ganesh,et al. Comparison of Solubilization of Hydrocarbons in (PEO-PPO) Diblock versus (PEO-PPO-PEO) Triblock Copolymer Micelles , 1996, Journal of colloid and interface science.
[21] C. Booth,et al. Association of a Triblock Ethylene Oxide (E) and Butylene Oxide (B) Copolymer (B12E260B12) in Aqueous Solution , 1996 .
[22] M. Lacasse,et al. Efficient continuum model for simulating polymer blends and copolymers , 1996 .
[23] J. Mays,et al. Micellization of Model Graft Copolymers of the H and π Type in Dilute Solution , 1996 .
[24] Markus Antonietti,et al. Micellization of strongly segregated block copolymers , 1996 .
[25] V. M. Nace. Nonionic Surfactants: Polyoxyalkylene Block Copolymers , 1996 .
[26] S. Webber,et al. Naphthalene-Tagged Copolymer Micelles Based on Polystyrene-alt-maleic anhydride-graft-poly(ethylene oxide) , 1996 .
[27] P. Linse,et al. Modeling of nonionic micelles , 1995 .
[28] W. Mattice,et al. Micellization and Gelation of Symmetric Triblock Copolymers with Insoluble End Blocks , 1995 .
[29] T. A. Hatton,et al. Temperature Effects on Structural Properties of Pluronic P104 and F108 PEO-PPO-PEO Block Copolymer Solutions , 1995 .
[30] Guangbin Zhou,et al. Micellization of amphiphilic star polymers with poly(ethylene oxide) arms in aqueous solutions , 1993 .
[31] N. Hadjichristidis,et al. Morphology and miscibility of miktoarm styrene-diene copolymers and terpolymers , 1993 .
[32] K. Ishizu,et al. Self-micellization of (AB)n type star-block copolymers , 1993 .
[33] T. Lodge,et al. Micelle formation of BAB triblock copolymers in solvents that preferentially dissolve the A block , 1991 .
[34] K. Ganesh,et al. Block copolymer self‐assembly in selective solvents: Spherical micelles with segregated cores , 1989 .
[35] D. Tomalia,et al. Starburst dendrimers. 4. Covalently fixed unimolecular assemblages reiminiscent of spheroidal micelles , 1987 .
[36] G. Hadziioannou,et al. Topological Constraints and Their Influence on the Properties of Synthetic Macromolecular Systems. 2. Micelle Formation of Triblock Copolymers , 1987 .
[37] J. Wheeler,et al. Theory of critical micelle concentration for solutions of block copolymers , 1983 .
[38] P. Gennes. Scaling Concepts in Polymer Physics , 1979 .
[39] E. Helfand,et al. Theory of the Interface between Immiscible Polymers. II , 1972 .
[40] Homer Jacobson,et al. Intramolecular Reaction in Polycondensations. I. The Theory of Linear Systems , 1950 .
[41] J. Hedrick,et al. Photophysical Characterization of Conformational Rearrangements for Amphiphilic 6-Arm Star Block Copolymers in Selective Solvent Mixtures , 2003 .
[42] Ian W. Hamley,et al. The physics of block copolymers , 1998 .
[43] P. Linse,et al. Monte Carlo simulations of the adsorption of amphiphilic oligomers at hydrophobic interfaces , 1997 .
[44] C. Hawker,et al. Unimolecular micelles and globular amphiphiles: dendritic macromolecules as novel recyclable solubilization agents , 1993 .
[45] P. Flory. Principles of polymer chemistry , 1953 .