Nationalism and globalisation:conflicting or complementary?

Nationalism and globalisation are two central phenomena of the modern world, that have both shaped and been shaped by each other, yet few connections have been made systematically between the two. This book brings together leading international scholars to examine the effect of globalisation on nationalism, and how the persistence of the nation affects globalisation. With a range of case studies from Europe, the US and Asia, the authors focus on the interaction between globalisation, national identity, national sovereignty, state-formation and the economy. ◦ Part one provides theoretical reflections on the flexibility and plasticity of the terms nationalism and globalisation focusing on the ways in which nationalism has shaped and has been shaped by globalising forces. ◦ Part two examines the relationship between nationalism and globalisation in different historical eras and different regions, questioning established approaches. ◦ Part three focuses on contemporary issues including the economic crisis, labour migration and citizenship and the theme of global culture. The result is a highly topical account that considers the conceptual landscape of Nationalism and Globalisation. With an interdisciplinary approach, Nationalism and Globalisation will be of interest to students and scholars of political science, sociology, history, economics and international relations.

Bioactive sol-gel glasses at the atomic scale:the complementary use of advanced probe and computer modeling methods

Sol-gel-synthesized bioactive glasses may be formed via a hydrolysis condensation reaction, silica being introduced in the form of tetraethyl orthosilicate (TEOS), and calcium is typically added in the form of calcium nitrate. The synthesis reaction proceeds in an aqueous environment; the resultant gel is dried, before stabilization by heat treatment. These materials, being amorphous, are complex at the level of their atomic-scale structure, but their bulk properties may only be properly understood on the basis of that structural insight. Thus, a full understanding of their structure-property relationship may only be achieved through the application of a coherent suite of leading-edge experimental probes, coupled with the cogent use of advanced computer simulation methods. Using as an exemplar a calcia-silica sol-gel glass of the kind developed by Larry Hench, in the memory of whom this paper is dedicated, we illustrate the successful use of high-energy X-ray and neutron scattering (diffraction) methods, magic-angle spinning solid-state NMR, and molecular dynamics simulation as components to a powerful methodology for the study of amorphous materials.