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Smart Responsive Polymers: Fundamentals and Design Principles (2020)

Mukherji, Debashish ; Marques, Carlos M. ; Kremer, Kurt

Annual Reviews

In: Annual Review of Condensed Matter Physics. 2020; 11(1): 271-299. Published 2020 Mar 10. doi: 10.1146/annurev-conmatphys-031119-050618.

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Publication Date: 2020-03-10

Description: In this review, we summarize recent theoretical and computational developments in the field of smart responsive materials, together with complementary experimental data. A material is referred to as smart responsive when a slight change in external stimulus can drastically alter its structure, function, or stability. Because of this smart responsiveness, these systems are used for the design of advanced functional materials. The most characteristic properties of smart polymers are discussed, especially polymer properties in solvent mixtures. We show how multiscale simulation approaches can shed light on the intriguing experimental observations. Special emphasis is given to two symmetric phenomena: co-non-solvency and co-solvency. The first phenomenon is associated with the collapse of polymers in two miscible good solvents, whereas the latter is associated with the swelling of polymers in poor solvent mixtures. Furthermore, we discuss when the standard Flory–Huggins-type mean-field polymer theory can (or cannot) be applied to understand these complex solution properties. We also sketch a few examples to highlight possible future directions, that is, how smart polymer properties can be used for the design principles of advanced functional materials.

Print ISSN: 1947-5454

Electronic ISSN: 1947-5462

Topics: Physics

Published by Annual Reviews

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Multiscale Simulation of Soft Matter: From Scale Bridging to Adaptive Resolution (2008)

Praprotnik, Matej ; Site, Luigi Delle ; Kremer, Kurt

Annual Reviews

In: Annual Review of Physical Chemistry. 2008; 59(1): 545-571. Published 2008 May 01. doi: 10.1146/annurev.physchem.59.032607.093707.

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Publication Date: 2008-05-01

Description: The relation between atomistic chemical structure, molecular architecture, molecular weight, and material properties is of basic concern in modern soft material science and includes standard properties of bulk materials and surface and interface aspects, as well as the relation between structure and function in nanoscopic objects and molecular assemblies of both synthetic and biological origin. This all implies a thorough understanding on many length and correspondingly time scales, ranging from (sub)atomistic to macroscopic. Presently, computer simulations play an increasingly important, if not central, role. Some problems do not require specific atomistic details, whereas others require them only locally. However, in many cases this strict separation is not sufficient for a comprehensive understanding of systems, and flexible simulation schemes are required that link the different levels of resolution. We here give a general view of the problem regarding soft matter and discuss some specific examples of linked simulation techniques at different resolution levels. We then discuss a recently developed flexible simulation scheme, the AdResS method, which allows one to adaptively change the resolution in certain regions of space on demand.

Print ISSN: 0066-426X

Electronic ISSN: 1545-1593

Topics: Chemistry and Pharmacology , Physics

Published by Annual Reviews

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