Globalization, democratization, and the Arab uprising : the international factor in MENA's failed democratization

What explains the almost negative impact of international factors on post-Uprising democratization prospects? This article compares the utility of rival “diffusionist” and neo-Gramscian political economy frames to explain this. Three international factors deter democratization. The failure of Western democracy promotion is rooted in the contradiction between the dominance of global finance capital and the norm of democratic equality; in the periphery, neo-liberalism is most compatible with hybrid regimes and, at best, “low intensity democracy.” In MENA, neo-liberalism generated a crony capitalism incompatible with democratization; while this also sparked the uprisings, these have failed to address class inequalities. Moreover at the normative level, MENA hosts the most credible counter-hegemonic ideologies; the brief peaking of democratic ideology in the region during the early uprisings soon declined amidst regional discourse wars. Non-democrats—coercive regime remnants and radical charismatic movements--were empowered by the competitive interference of rival powers in Uprising states. The collapse of many Uprising states amidst a struggle for power over the region left an environment uncongenial to democratization.PostprintPeer reviewe

Synthesis of trimetallic oxide (Fe2O3–MgO–CuO) nanocomposites and evaluation of their structural and optical properties

Abstract In this paper, tri-phase Fe2O3–MgO–CuO nanocomposites (NCs) and pure CuO, Fe2O3 and MgO nanoparticles (NPs) were prepared using sol–gel technique. The physical properties of the prepared products were examined using SEM, XRD, and UV–visible. The XRD data indicated the formation of pure CuO, Fe2O3 and MgO NPs, as well as nanocomposite formation with Fe2O3 (cubic), MgO (cubic), and CuO (monoclinic). The crystallite size of all the prepared samples was calculated via Scherrer's formula. The energy bandgap of CuO, Fe2O3 and MgO and Fe2O3–MgO–CuO NCs were computed from UV–visible spectroscopy as following 2.13, 2.29, 5.43 and 2.96 eV, respectively. The results showed that Fe2O3–MgO–CuO NCs is an alternative material for a wide range of applications as optoelectronics devices due to their outstanding properties