Locating cosmopolitanism - Between humanist ideal and grounded social category

The emerging interdisciplinary body of cosmopolitanism research has established a promising field of theoretical endeavour by bringing into focus questions concerning globalization, nationalism, population movements, cultural values and identity. Yet, despite its potential importance, what characterizes recent cosmopolitanism research is an idealist sentiment that considerably marginalizes the significance of the structures of nation-state and citizenship, while leaving unspecified the empirical sociological dimensions of cosmopolitanism itself. Our critique aims at making cosmopolitanism a more productive analytical tool. We argue for a cosmopolitanism that consists of conceptually and empirically identifiable values and outlooks. While there has been some progress made in this direction in the recent literature on cosmopolitanism, most writing still considers cosmopolitanism as something so delicate that it cannot be measured. Furthermore, in order to appreciate the full currency of the concept, we argue that researchers must not only agree on some common determinants of cosmopolitanism and cosmopolitan dispositions, but also ground their analyses of cosmopolitanism in the context of enduring nation-state structures.

Carrier transport in PbS nanocrystal conducting polymer composites

In this letter we report the carrier mobilities in an inorganic nanocrystal: conducting polymer composite. The composite material in question (lead sulphide nanocrystals in the conducting polymer poly [2-methoxy-5-(2(')-ethyl-hexyloxy)-p-phenylene vinylene] (MEH-PPV) was made using a single-pot, surfactant-free synthesis. Mobilties were measured using time of flight techniques. We have found that the inclusion of PbS nanocrystals in MEH-PPV both balances and markedly increases the hole and electron mobilities-the hole mobility is increased by a factor of similar to 10(5) and the electron mobility increased by similar to 10(7) under an applied bias of 5 kV cm(-1). These results explain why dramatic improvements in electrical conductivity and photovoltaic performance are seen in devices fabricated from these composites.