436 research outputs found

    Innovation for sustainability: toward a sustainable urban future in industrialized cities

    No full text
    Achieving a sustainable urban future has become an important focus globally. In this paper, three major themes of a sustainable urban future are presented: a low carbon society, cities in the context of an ageing population and revitalization of the urban-rural fringe. Visions of these themes, in the context of highly industrialized regions, are discussed. To achieve a low carbon society, the importance of technological innovations such as new technologies and systems applied in buildings (homes and businesses), industries, and transportation are emphasized. To adapt to an ageing society, a compact city is seen with responsive transport, infrastructure and services that cater to the needs of the elderly. To enhance the urban-rural fringe, the introduction of eco-industries, which can create opportunities for both sides, is proposed

    Deposition of germanium dioxide films by the injection of oxygen ion beam in conjunction with hexamethyldigermane

    No full text
    Yoshimura S., Sugimoto S., Takeuchi T., et al. Deposition of germanium dioxide films by the injection of oxygen ion beam in conjunction with hexamethyldigermane. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 1056, 168707 (2023); https://doi.org/10.1016/j.nima.2023.168707.We proposed a methodology for fabricating a film by the simultaneous injections of O+ ions and hexamethyldigermane (HMDG) to a substrate. The O+-ion energy was set at 50 eV. After the experimental trial, we found a film deposited on the substrate. The analyses of the film with X-ray photoelectron spectroscopy and Fourier transform infrared spectroscopy showed that the deposited film was germanium dioxide (GeO2). It was also noted that no film deposition occurred when HMDG was supplied to substrates without O+-ion beam injections. In conclusion, the low-energy O+-ion beam induced deposition using HMDG was found to be useful for the deposition of GeO2 films

    Deposition of germanium dioxide films by the injection of oxygen ion beam in conjunction with hexamethyldigermane

    No full text
    Yoshimura S., Sugimoto S., Takeuchi T., et al. Deposition of germanium dioxide films by the injection of oxygen ion beam in conjunction with hexamethyldigermane. Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 1056, 168707 (2023); https://doi.org/10.1016/j.nima.2023.168707.We proposed a methodology for fabricating a film by the simultaneous injections of O+ ions and hexamethyldigermane (HMDG) to a substrate. The O+-ion energy was set at 50 eV. After the experimental trial, we found a film deposited on the substrate. The analyses of the film with X-ray photoelectron spectroscopy and Fourier transform infrared spectroscopy showed that the deposited film was germanium dioxide (GeO2). It was also noted that no film deposition occurred when HMDG was supplied to substrates without O+-ion beam injections. In conclusion, the low-energy O+-ion beam induced deposition using HMDG was found to be useful for the deposition of GeO2 films

    Climate Research Projects and Their Difficulties

    No full text

    Professor Seiichi Kanari and ocean turbulence measurement

    No full text
    "List of research work publication s in English", "List of research work publications in Japanese", "List of other pubilcations" あ
    corecore