The manner in which technological capability and marketing capability can be successfully leveraged is an important research issue. Based on the resource-management model, this study aims to answer two research questions: (1) whether technological capability and marketing capability are complementary or supplementary capabilities; and (2) how technological capability and marketing capability can be used appropriately to respond to environmental turbulence. Based on a face-to-face interview survey of 212 Chinese firms, we find that technological capability and marketing capability have synergistic effects. We also find that technological turbulence enhances the performance effect of technological capability, but impedes that of marketing capability; whereas market turbulence advances the performance effect of marketing capability, but impedes that of technological capability. Thus, the appropriate way to leverage technological capability and marketing capability is to integrate them and to deploy technological capability to respond to technological turbulence and marketing capability to respond to market turbulence.
We experimentally demonstrate a wide field surface plasmon (SP) assisted super-resolution imaging technique, plasmonic structured illumination microscopy (PSIM), by combining tunable SP interference (SPI) with structured illumination microscopy (SIM). By replacing the laser interference fringes in conventional SIM with SPI patterns, PSIM exhibits greatly enhanced resolving power thanks to the unique properties of SP waves. This PSIM technique is a wide field, surface super-resolution imaging technique with potential applications in the field of high-speed biomedical imaging.
Super-resolution imaging methods such as structured illumination microscopy and others have offered various compromises between resolution, imaging speed, and biocompatibility. Here we experimentally demonstrate a physical mechanism for super-resolution that offers advantages over existing technologies. Using finely structured, resonant, and controllable near-field excitation from localized surface plasmons in a planar nanoantenna array, we achieve wide-field surface imaging with resolution down to 75 nm while maintaining reasonable speed and compatibility with biological specimens.
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