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[32] Buckled Colloidal Monolayers Connect Geometric Frustration in Soft and Hard Matter, Yair Shokef*,Yilong Han, Anton Souslov, A. G. Yodh and Tom C. Lubensky, Soft Matter, in press
[31] Using colloids to understand the dynamics of melting and crystallization, Y. Han*, 物理 (Physics) 42, 160-169, (2013)
[30] Glass transitions in monolayers of colloidal ellipsoids, Zhongyu Zheng* and Yilong Han*, AIP Conf. Proc. 1518, 153 (2013)
[29] Homogeneous melting of 3D superheated colloidal crystals, Ziren Wang, Feng Wang, Yi Peng, Zhongyu Zheng, and Yilong Han*, AIP Conf. Proc. 1518, 432, (2013)
[28] Test of the Universal Scaling Law of Diffusion in Colloidal Monolayers, Xiaoguang Ma, Wei Chen, Ziren Wang, Yuan Peng, Yilong Han, and Penger Tong*, Phys. Rev. Lett. 110, 078302 (2013)
[27] Imaging the homogenous nucleation during the melting of superheated colloidal crystals, Ziren Wang, Feng Wang, Yi Peng, Zhongyu Zheng, and Yilong Han*, Science 338, 87 (2012) pdf
[26] Colloidal electroconvection in a thin horizontal cell. III. Interfacial and transient patterns on electrodes, Yilong Han* and David Grier*,  J. Chem. Phys. 137, 014504 (2012)
[25] Self-similarity of phase-space networks of frustrated spin models and lattice gas models, Yi Peng, Feng Wang, Michael Wong, and Yilong Han*, Phys. Rev. E 84, 051105 (2011)
[24] Melting of microgel colloidal crystals, Y. Peng, Z.-R. Wang and Y. Han*, J. Phys.: Conf. Ser. 319, 012010 (2011)
[23] Glass transitions in quasi-two-dimensional suspensions of colloidal ellipsoids, Z. Zheng, F. Wang and Y. Han*, Phys. Rev. Lett. 107, 065702 (2011) (highlighted by Editor's Suggestion   and Physics Viewpoint )
[22] A. M. Alsayed, Y. Han and A. G. Yodh, Book Chapter 10 "Melting and Geometric Frustration in Temperature-Sensitive Colloids" p229-281 in "Microgel Suspensions, Fundamentals and Applications" WILEY-VCH, 2011.
[21] Melting of multilayer colloidal crystals confined between two walls, Y. Peng, Z.-R. Wang, A. M. Alsayed, A. G. Yodh, and Y. Han*,  Phys. Rev. E  83, 011404 (2011)
[20] Two Features at the Two-Dimensional Freezing Transitions, Z.-R. Wang, W. Qi, Y. Peng, A. M. Alsayed, Y. Chen, P. Tong, and Y. Han*, J. Chem. Phys.  134, 034506 (2011)
[19] Melting in two-dimensional Yukawa systems: A Brownian dynamics simulation, W. Qi, Z.-R. Wang, Y. Han*, and Y. Chen*, J. Chem. Phys. 133, 234508 (2010)
[18] Self-diffusion in two-dimensional hard ellipsoid suspensions, Z. Zheng and Y. Han*, J. Chem. Phys. 133, 124509 (2010)
[17] Melting of  Colloidal Crystal Films, Y. Peng, Z.-R. Wang, A. Alsayed, A. G. Yodh, and Y. Han*, Phys. Rev. Lett. 104, 205703 (2010) (featured by Physical Review Focus )
[16] Two-Dimensional Freezing Criteria for Crystallizing Colloidal Monolayers, Z.-R. Wang, A. Alsayed, A. G. Yodh, and Y. Han*,  J. Chem. Phys. 132, 154501 (2010) (selected by Virtual Journal of Biological Physics Research)
[15] Phase-Space Networks of the Six-Vertex Model under Different Boundary Conditions, Y. Han*, Phys. Rev. E 81, 041118 (2010) (selected by PRE Kaleidoscope)
[14] Phase-Space Networks of Geometrically Frustrated Systems, Y. Han*, Phys. Rev. E  80, 051102, (2009)
[13] Quasi-Two-Dimensional Diffusion of Single Ellipsoids: Aspect Ratio and Confinement Effects, Y. Han*, A. M. Alsayed, M. Nobili and A. G. Yodh  Phys. Rev. E  80, 011403 (2009)
[12] Particle Dynamics in Colloidal Suspensions Above and Below the Glass-Liquid Re-entrance Transition, A. Latka, Y. Han, A. M. Alsayed, A. B. Schofield, A. G. Yodh and P. Habdas*  Europhys. Lett. 86, 58001 (2009)
[11] Geometric Frustration in Buckled Colloidal Monolayers, Y. Han*, Y. Shokef*, A. M. Alsayed, P. Yunker, T. C. Lubensky and A. G. Yodh Nature 456, 898-903 (2008). Supplementary Information and movies
[10] Melting of Two-Dimensional Diameter Tunable Colloidal Crystals, Y. Han*, N. Y. Ha, A. M. Alsayed, and A. G. Yodh  Phys. Rev. E  77, 041406 (2008)
[9] Colloidal Electrostatic Interactions Near a Conducting Surface, M. Polin, D. G. Grier, and Y. Han Phys. Rev. E  76, 041406 (2007)
[8] Brownian Motion of an Ellipsoid, Y. Han, A. M. Alsayed, M. Nobili, J. Zhang, T. C. Lubensky, and A. G. Yodh  Science 314, 626-630 (2006). Supporting Online Materials
[7]  Colloidal Electroconvection in a Thin Horizontal Cell II: bulk electroconvection of water during parallel-plate electrolysis, Y. Han and D. G. Grier J. Chem. Phys. 125, 144707 1-7, (2006)
[6] Colloidal Patterns in a Thin Electrolysis Cell I: microscopic cooperative structures, Y. Han and D. G. Grier  J. Chem. Phys. 122, 164701, 1-11 (2005)
[5] Configurational Temperatures and Interactions in Charge-Stabilized Colloid, Y. Han and D. G. Grier  J. Chem. Phys. 122, 064907, 1-14 (2005)
[4] Anomalous Attractions in Confined Charge-Stabilized Colloid, D. G. Grier and Y. Han J. Phys.- Condens. Matt. 16, S4145-S4157 (2004)
[3] Configurational Temperature of Charge-Stabilized Colloidal Monolayer, Y. Han and D. G. Grier  Phys. Rev. Lett. 92, 148301 (2004)
[2] Confinement-Induced Colloidal Attractions in Equilibrium, Y. Han and D. G. Grier Phys. Rev. Lett. 91, 038302 (2003)
[1] Vortex Rings in a Constant Electric Field, Y. Han and D. G. Grier  Nature 424, 267-268 (2003); erratum Nature 424, 510 (2003)

*corresponding author

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