Download Polymer Thin Films (Series in Soft Condensed Matter) by Ophelia K. C. Tsui PDF

By Ophelia K. C. Tsui

Polymer skinny movies is an rising quarter pushed by way of their huge, immense technological power and the intellectually hard educational difficulties linked to them. This publication includes a choice of evaluation articles at the present subject matters of polymer motion pictures written by way of prime specialists within the box. to mirror the interdisciplinary nature of this box, the participants hail from a large variety of disciplines, together with chemists, chemical engineers, fabrics scientists, engineers, and physicists. The aim of this e-book is to supply readers, even if all for or outdoors of the sphere of polymer motion pictures, with an encompassing and informative reference. Contents: Block Copolymer skinny movies (J-Y Wang et al.); Equilibration of Block Copolymer movies on Chemically Patterned Surfaces (G S W Craig et al.); constitution Formation and Evolution in restrained Cylinder-Forming Block Copolymers (G J A Sevink & J G E M Fraaije); Block Copolymer Lithography for Magnetic gadget Fabrication (J Y Cheng & C A Ross); Hierarchical Structuring of Polymer Nanoparticles through Self-Organization (M Shimomura et al.); Wrinkling Polymers for floor constitution keep watch over and performance (E P Chan & A J Crosby); Crystallization in Polymer skinny motion pictures: Morphology and development (R M Van Horn & S Z D Cheng); Friction at tender Polymer floor (M okay Chaudhury et al.); dating among Molecular structure, Large-Strain Mechanical reaction and Adhesive functionality of version, Block Copolymer-Based strain delicate Adhesives (C Creton & ok R Shull); balance and Dewetting of skinny Liquid motion pictures (K Jacobs et al.); Anomalous Dynamics of Polymer motion pictures (O okay C Tsui).

Show description

Read Online or Download Polymer Thin Films (Series in Soft Condensed Matter) PDF

Similar clinical chemistry books

Reviews in Computational Chemistry, Vol. 24

Stories In Computational Chemistry Martin Schoen and Sabine Klapp Kenny B. Lipkowitz and Thomas Cundari, sequence Editors This quantity, in contrast to these ahead of it, involves a unmarried monograph protecting the well timed subject of limited fluids. quantity 24 positive aspects the thermodynamics of limited stages, components of statistical thermodynamics, one-dimensional hard-rod fluids, mean-field thought, remedies of constrained fluids with short-range and long-range interactions, and the statistical mechanics of disordered restricted fluids.

The Chemistry of Organic Silicon Compounds, Volume 3

Complementing the six volumes already released in Patai's Chemistry of the useful teams sequence this identify covers issues now not formerly up to date within the set. Written through key researchers within the box it contains more effective chapters and commercial examples than earlier than in addition to extra fabric.

Molecular Modeling Techniques In Material Sciences

More and more valuable in fabrics study and improvement, molecular modeling is a technique that mixes computational chemistry concepts with photos visualization for simulating and predicting the constitution, chemical methods, and houses of fabrics. Molecular Modeling ideas in fabrics technological know-how explores the impression of utilizing molecular modeling for numerous simulations in business settings.

Additional info for Polymer Thin Films (Series in Soft Condensed Matter)

Sample text

Solak, D. He, W. Li, S. Singh-Gasson, F. Cerrina, B. H. Sohn, X. M. Yang, and P. Nealey, Appl. Phys. Lett. 75, 2328 (1999). 51. B. Collin, D. Chatenay, G. Coulon, D. Ausserre, and Y. Gallot, Macromolecules 25, 1621 (1992). 52. G. Coulon, B. Collin, D. Ausserre, D. Chatenay, and T. P. Russell, Journal De Physique 51, 2801 (1990). 53. H. H. Solak, C. David, J. Gobrecht, V. Golovkina, F. Cerrina, S. O. Kim, and P. F. Nealey, Microelectron. Eng. 67-8, 56 (2003). 54. E. W. Edwards, M. P. Stoykovich, M.

M. Park, Y. J. Papakonstantopoulos, J. J. de Pablo, P. F. Nealey, and H. H. Solak, Phys. Rev. Lett. 96, 036104 (2006). 47. S. M. Park, G. S. W. Craig, Y. H. La, H. H. Solak, and P. F. Nealey, Macromolecules 40, 5084 (2007). 48. X. M. Yang, R. D. Peters, P. F. Nealey, H. H. Solak, and F. Cerrina, Macromolecules 33, 9575 (2000). 49. L. Rockford, Y. Liu, P. Mansky, T. P. Russell, M. Yoon, and S. G. J. Mochrie, Phys. Rev. Lett. 82, 2602 (1999). 50. H. H. Solak, D. He, W. Li, S. Singh-Gasson, F. Cerrina, B.

KrusinElbaum, K. Guarini, C. T. Black, M. T. T uominen, T. P. Russell, Science 290, 2126 (2000). 75. J. Y. Cheng, A. M. Mayes, C. A. Ross, Nature Materials 3, 823 (2004). 76. R. A. Segalman, H. Yokoyama, E. J. Kramer, Advanced Materials 13, 1152 (2001). 77. J. Bodycomb, Y. Funaki, K. Kimishima, T. Hashimoto, Macromolecules 32, 2075 (1999). 78. C. Tang, A. Tracz, M. Kruk, R. -M. Smilgies, K. Matyjaszewski, T. Kowalewski, Journal of the American Chemical Society 127, 6918 (2005). 79. A. Tracz, J.

Download PDF sample

Rated 4.93 of 5 – based on 11 votes