Ugetsu Monogatari has been widely acclaimed as a masterpiece of the Japanese cinema since the moment in 1952 when its director, Kenji Mizoguchi, won a Silver Lion award for the film at the Venice Festival. Western audiences immediately recognized the pictorial beauty of Ugetsu and the lyrical power of Mizoguchi's camera movements, but most viewers have found the film's narrative elements puzzling and unsettling. Ugetsu seems to move between two radically different worlds: the first is a world at war, conveyed with graphic realism; the second, a highly stylized world of the supernatural, filled with ghosts and apparitions. To understand why Mizoguchi chose to incorporate these disparate experiences in one film and ultimately to integrate them requires an awareness of Mizoguchi's customary themes and of cultural contexts that would be familiar to his Japanese audience. This volume presents a complete continuity script of Ugetsu and an introductory essay by Keiko McDonald, analyzing the complex issues of Japanese culture revealed in the film. Also included are a letter from Mizoguchi to his longtime scriptwriter, the late Yoshikata Yoda; the complete texts of the two Japanese tales on which the film was based; Japanese, European and American reviews and commentaries, some appearing for the first time in English; and a filmography and bibliography.
This book presents basic information about DNA, along with comprehensive theoretical introduction to DNA. It discusses recent developments in divalent-metal-ion inserted M-DNA complex, which gives rise to the possibility of DNA application to electronic functionality. Further, the book describes three examples of applications: optical and electrical materials, electronic devices such as bioTFT memory and color-tunable light-emitting diodes, and biofuel cell application with use of proton conduction in DNA.
This book presents basic information about DNA, along with comprehensive theoretical introduction to DNA. It discusses recent developments in divalent-metal-ion inserted M-DNA complex, which gives rise to the possibility of DNA application to electronic functionality. Further, the book describes three examples of applications: optical and electrical materials, electronic devices such as bioTFT memory and color-tunable light-emitting diodes, and biofuel cell application with use of proton conduction in DNA.
15 April - 5 June 2010. To mark the first anniversary of the passing of Kenji Yoshida, the October Gallery is pleased to announce a special exhibition of Yoshida's work that will celebrate the extraordinary life of this remarkable man and outstanding artist. The exhibition, A Celebration of Life, will display works from the different periods of Yoshida's career, including the incandescent etchings he made at Stanley Heyter's Atelier 17 in Paris in the early 60's, inks, calligraphy and paintings on paper from the 70's onwards, as well, as the distinctive oils on canvas that are his characteristic contribution to contemporary art, deftly-sketched portraits of the created universe itself. With an essay by Charles Darwent.
In Light Driven Micromachines, the fundamental principles and unique characteristics of light driven material structures, simple mechanisms and integrated machines are explored. Very small light driven systems provide a number of interesting features and unique design opportunities because streams of photons deliver energy into the system and provide the control signal used to regulate the response of the micron sized device. Through innovative material design and clever component fabrication, these optically powered tiny machines can be created to perform mechanical work when exposed to varying light intensity, wavelength, phase, and/or polarization. The book begins with the scientific background necessary to understand the nature of light and how light can initiate physical movement by inducing material deformation or altering the surrounding environment to impose micro-forces on the actuating mechanisms. The impact of physical size on the performance of light driven mechanisms and machines is discussed, and the nature of light–material interactions is reviewed. These interactions enable very small objects and mechanical components to be trapped and manipulated by a focused light beam, or produce local temperature gradients that force certain materials to undergo shape transformation. Advanced phase transition gels, polymers, carbon-based films and piezoelectric ceramics that exhibit direct light-to-mechanical energy conversion are examined from the perspective of designing optically driven actuators and mechanical systems. The ability of light to create photothermal effects that drive microfluidic processes and initiate the phase transformation of temperature sensitive shape memory materials are also explored in the book. This compendium seeks to inspire the next generation of scientists and engineers by presenting the fundamental principles of this emerging interdisciplinary technology and exploring how the properties of light can be exploited for microfluidic, microrobotic, biomedical and space applications.
This book covers the fundamental aspects of the electrochemistry and redox enzymes that underlie enzymatic bioelectrocatalysis, in which a redox enzyme reaction is coupled with an electrode reaction. Described here are the basic concept and theoretical aspects of bioelectrocatalysis and the various experimental techniques and materials used to study and characterize related problems. Also included are the various applications of bioelectrocatalysis to bioelectrochemical devices including biosensors, biofuel cells, and bioreactors. This book is a unique source of information in the area of enzymatic bioelectrocatalysis, approaching the subject from a cross-disciplinary point of view.
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