ワガクニ ノ キギョウ ケイエイ ノ カダイ ト テンボウ ソシキ ノ シテン オ チュウシン ニ

This paper attempted to analyze the issues and prospects of Japanese corporate management, mainly from the organization\u27s point of view. First of all, I reviewed the present situation of Japanese corporate management from a global perspective, the political and economic reality of the world, the progress of the IT revolution, and stated the difficult reality surrounding Japanese companies and the difficulties standing in the future. Next, we introduced three successful cases of corporate innovation, and summarized management issues of Japanese companies from three viewpoints: (1) paradox of success, (2) management perspective, (3) organizational perspective - “big company disease”. Finally, From a viewpoint of continuity and stability to risk taking and change，we discussed the change of corporate view, management reform, diversification of organizational view, new organizational view, and dynamism of strategy and organization. As an essential supplement, we pointed out the nature and limitations of the corporation

Growth of Carbon Nanotubes on HfO2 towards Highly Sensitive Nano-Sensors

Carbon nanotube (CNT) growth on HfO2 is reported for the first time. The process uses a combination of Ge and Fe nanoparticles and achieves an increase in CNT density from 0.15 to 6.2 mm length/mm2 compared with Fe nanoparticles alone. The synthesized CNTs are assessed by the fabrication of back-gate CNT field-effect transistors with Al source/drain contacts for nano-sensor applications. The devices exhibit excellent p-type behavior with an Ion=Ioff ratio of 105 and a steep sub-threshold slope of 130 mV/dec

Photochemical Reactions of Ge-Related Centers in Germanosilicate Glass Preparted by Sol-Gel Process (SOLID STATE CHEMISTRY-Amorphous Materials)

Germanosilicate glasses are prepared by a sol-gel method and the UV-photosensitivity of glasses is investigated by optical absorption, ESR, and photoluminescence measurements. Large changes in optical absorption are observed for the sol-gel-derived glass by the ultraviolet laser irradiation; a decrease in 5-eV band and increases in absorption around 4.5 and > 5.7 eV. Photoluminescence intensity under 248- nm excitation decreases with an increase in laser fluence and also with decrease in the 5-eV band. This result strongly implies the novel photochemical reaction from Ge2+ to Ge E' induced by excimer laser irradiation

Purely excitonic lasing in ZnO microcrystals: Temperature-induced transition between exciton-exciton and exciton-electron scattering

Since the seminal observation of room-temperature laser emission from ZnO thin films and nanowires, numerous attempts have been carried out for detailed understanding of the lasing mechanism in ZnO. In spite of the extensive efforts performed over the last decades, the origin of optical gain at room temperature is still a matter of considerable discussion. In this work, we show that a ZnO film consisting of well-packed micrometer-sized ZnO crystals exhibits purely excitonic lasing at room temperature without showing any symptoms of electron-hole plasma emission, even under optical excitation more than 25 times above the excitonic lasing threshold. The lasing mechanism is shifted from the exciton-exciton scattering to the exciton-electron scattering with increasing temperature from 3 to 150 K. The exciton-electron scattering process continues to exist with further increasing temperature from 150 to 300 K. Thus, we present distinct experimental evidence that the room-temperature excitonic lasing is achieved not by exciton-exciton scattering, as has been generally believed, but by exciton-electron scattering. We also argue that the long carrier diffusion length and the low optical loss nature of the micrometer-sized ZnO crystals, as compared to those of ZnO nanostructures, plays a key role in showing room-temperature excitonic lasing