Formation of three-dimensional (3D) Self-Assembled Clusters of Anisotropic Janus Particles in Microgravity
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References
- Bailey AE, Poon WCK, Christianson RJ, Schofield AB, Gasser U, Prasad V, Manley S, Segre PN, Cipelletti L, Meyer WV, Doherty MP, Sankaran S, Jankovsky AL, Shiley WL, Bowen JP, Eggers JC, Kurta C, Lorik T, Pusey PN, Weitz DA (2007) Spinodal decomposition in a model colloid-polymer mixture in microgravity. Physical Review Letters 99: 205701-1-205701-4
- Baldwin RL (1986) Temperature-dependence of the hydrophobic interaction in protein folding. Proceedings of the National Academy of Sciences of the United States of America 83: 8069–8072
- Carrasco B, de la Torre JG (1999) Hydrodynamic properties of rigid particles: Comparison of different modeling and computational procedures. Biophysical Journal 76: 3044–3057
- Cheng ZD, Chaikin PM, Zhu JX, Russel WB, Meyer WV (2002) Crystallization kinetics of hard spheres in microgravity in the coexistence regime: Interactions between growing crystallites. Physical Review Letters 88: 015501-1-015501-4
- Choi CH, Lee J, Yoon K, Tripathi A, Stone HA, Weitz DA, Lee CS (2010) Surface-tension-induced synthesis of complex particles using confined polymeric fluids. Angewandte Chemie-International Edition 49: 7748–7752
- Claesson PM, Kjellander R, Stenius P, Christenson HK (1986) Direct measurement of temperature-dependent interactions between non-ionic surfactant layers. Journal of the Chemical Society, Faraday Transactions 1: Physical Chemistry in Condensed Phases 82: 2735–2746
- Delatorre JG, Bloomfield VA (1981) Hydrodynamic properties of complex, rigid, biological macromolecules - theory and applications. Quarterly Reviews of Biophysics 14: 81–139
- Dinsmore AD, Crocker JC, Yodh AG (1998) Self-assembly of colloidal crystals. Current Opinion in Colloid & Interface Science 3: 5–11
- Glotzer SC, Solomon MJ (2007) Anisotropy of building blocks and their assembly into complex structures. Nature Materials 6: 557–562
- Gregory J (2005) Particles in Water: Properties and Processes, Boca Raton: CRC Press.
- Grzybowski BA, Winkleman A, Wiles JA, Brumer Y, Whitesides GM (2003) Electrostatic self-assembly of macroscopic crystals using contact electrification. Nature Materials 2: 241–245
- Kegel WK, van der Schoot P (2004) Competing hydrophobic and screened-Coulomb interactions in hepatitis B virus capsid assembly. Biophysical Journal 86: 3905–3913
- Lee MH, Furst EM (2006) Formation and evolution of sediment layers in an aggregating colloidal suspension. Physical Review E 74: 031401-1-031401-11
- Lin KH, Crocker JC, Prasad V, Schofield A, Weitz DA, Lubensky TC, Yodh AG (2000) Entropically driven colloidal crystallization on patterned surfaces. Physical Review Letters 85: 1770–1773
- Manley S, Cipelletti L, Trappe V, Bailey AE, Christianson RJ, Gasser U, Prasad V, Segre PN, Doherty MP, Sankaran S, Jankovsky AL, Shiley B, Bowen J, Eggers J, Kurta C, Lorik T, Weitz DA (2004) Limits to gelation in colloidal aggregation. Physical Review Letters 93: 108302-1-108302-4
- Napper DH (1983) Polymeric Stabilization of Colloidal Dispersions, London, New York: Academic Press.
- Némethy G, Scheraga HA (1962) The structure of water and hydrophobic bonding in proteins. iii. The thermodynamic properties of hydrophobic bonds in proteins1, 2. The Journal of Physical Chemistry 66: 1773–1789
- Ortega A, de la Torre JG (2003) Hydrodynamic properties of rodlike and disklike particles in dilute solution. Journal of Chemical Physics 119: 9914–9919
- Oss CJv (2006) Interfacial Forces in Aqueous Media, Boca Raton: CRC Press.
- Sedgwick H, Egelhaaf SU, Poon WCK (2004) Clusters and gels in systems of sticky particles. Journal of Physics-Condensed Matter 16: S4913–S4922
- Segrè PN, Prasad V, Schofield AB, Weitz DA (2001) Glasslike kinetic arrest at the colloidal-gelation transition. Physical Review Letters 86: 6042–6045
- Senis D, Allain C (1997) Scaling analysis of sediment equilibrium in aggregated colloidal suspensions. Physical Review E 55: 7797–7800
- Tadros TF (2015) Interfacial Phenomena and Colloid Stability, Berlin, München, Boston: De Gruyter.
- Tirado MM, Martinez CL, Delatorre JG (1984) Comparison of theories for the translational and rotational diffusion-coefficients of rod-like macromolecules - application to short DNA fragments. Journal of Chemical Physics 81: 2047–2052
- Vanoss CJ, Chaudhury MK, Good RJ (1988) Interfacial lifshitz-vanderwaals and polar interactions in macroscopic systems. Chemical Reviews 88: 927–941
- Wang YF, Wang Y, Breed DR, Manoharan VN, Feng L, Hollingsworth AD, Weck M, Pine DJ (2012) Colloids with valence and specific directional bonding. Nature 491: 51–U61
- Weeks JR, van Duijneveldt JS, Vincent B (2000) Formation and collapse of gels of sterically stabilized colloidal particles. Journal of Physics-Condensed Matter 12: 9599–9606
- Whitmer JK, Luijten E (2011) Sedimentation of aggregating colloids. Journal of Chemical Physics 134: 034510-1-034510-10
- Yeom SJ, Kang SM, Kim J, Nam JO, Eom N, Lee S, Lee CS (2016) Fabrication of multicompartment particles via sequential micromolding method. Polymer-Korea 40: 457–463
- Zhu JX, Li M, Rogers R, Meyer W, Ottewill RH, Russell WB, Chaikin PM (1997) Crystallization of hard-sphere colloids in microgravity. Nature 387: 883–885
DOI: https://doi.org/10.2478/gsr-2024-0008 | Journal eISSN: 2332-7774
Language: English
Page range: 115 - 129
Published on: Aug 16, 2024
Published by: American Society for Gravitational and Space Research
In partnership with: Paradigm Publishing Services
Publication frequency: 2 times per year
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© 2024 Jongmin Kim, Reya Ganguly, Jaesung Kim, Ronald J. Sicker, Francis P. Chiaramonte, William V. Meyer, Catherine A. Frey, John G. Eustace, Deena M. Dombrosky, Mark W. Pestak, Chang-Soo Lee, published by American Society for Gravitational and Space Research
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