Small-angle-neutron-scattering characterization of polymers

James Mark; Kia Ngai; William Graessley; Leo Mandelkern; Edward Samulski; Jack Koenig; George Wignall

doi:10.1017/CBO9781139165167.008

7 - Small-angle-neutron-scattering characterization of polymers

Published online by Cambridge University Press: 05 June 2012

James Mark ,

Kia Ngai ,

Jack Koenig and

James Mark: Affiliation:
University of Cincinnati
Kia Ngai: Affiliation:
US Naval Research Laboratory, Washington DC
William Graessley: Affiliation:
Princeton University, New Jersey
Leo Mandelkern: Affiliation:
Florida State University
Edward Samulski: Affiliation:
University of North Carolina, Chapel Hill
Jack Koenig: Affiliation:
Case Western Reserve University, Ohio
George Wignall: Affiliation:
Oak Ridge National Laboratory, Tennessee

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Summary

Introduction

Background

Neutron scattering had its origin in 1932, the year that marked the discovery of the neutron by Chadwick, and the first nuclear reactors were successfully operated in Chicago and Oak Ridge in the early 1940s. It is there that the technique of neutron scattering can be said to have begun and, during its initial stages, it was used mainly for the study of “hard” crystalline materials. For example, the pioneering research of C. G. Shull, E. O. Wollan, and B. N. Brockhouse, which led to the 1997 Nobel Prize for Physics, began with studies of materials such as iron, chromium, cobalt, and iridium, and was followed by the development of polarization analysis [1] to determine the structure of magnetic materials. Such studies continue to give important structural information [2], though, during the last two decades, the technique has been used increasingly by scientists from other disciplines (polymer science, chemistry, biology). Thus, many of these more recent applications have involved “soft” matter such as polymers [3] and colloids [4], which have become some of the most practical and widely used materials today. This development may be seen as part of an even broader trend within the sciences, as noted by P. G. de Gennes [5]:

Our species initially learned to work hard objects, like flint, bronze, stone, brick or even wood. But soon, it found itself in need of more nuances, of more pliant materials; leathers, natural fibers, waxes, starches … Likewise, twentieth century physics first devoted itself to hard materials, such as metals, semiconductors (which opened the way to modern forms of communication), and later, ceramics. […]

Type: Chapter
Information: Physical Properties of Polymers , pp. 424 - 512

DOI: https://doi.org/10.1017/CBO9781139165167.008 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2004

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