Nano Centre Part 2 Project 2008 Olga Banchikova Moscow Architectural Institute | Russia As any other advanced technology, nanoscience has a visible impact on many areas of life. Fear and high hopes pinned on nanotechnology, futuristic concepts of high-end companies and bright medical perspectives have recently become a substantial social phenomenon, which is worth considering and responding with the means of architecture. Visual references, which might be found under an electron microscope, are rather diverse. However it was possible to generalize some principles, like repetitive structures, lattice, patterns and frequent likeness between nano- and macro-scale objects, when they are viewed irrespective of the medium. The design of headquarters for nanoscience succeeds to multiple references in the history of architecture as well as the newest scientific achievements have become possible only due to the consistent progress of research. These are gothic buttresses, arabesques and other geometrical patterns, organic style and constructivism, classical antique organization of space, which assumes the changes of an object perception according to the changes of viewpoint. The project of Nanocentre is aimed at creating an adequate and inciting image of today’s nanoscience, which would reflect different sides of the matter, represent the cutting edge of technology and stay relevant in the due course of social and scientific development, providing a flexible facility for ever changing requirements. Olga Banchikova Though the position of nanoscience in present-day reality is more than widely discussed, the project in question is based on student’s genuinely novel research, dealing with technical, social and metaphysical sides of the matter. Originally developed program and construction have been crystallized from analysis of actual state of nanotechnologies, positive demands and mass expectations. The resulting solution brings together topological, social, physical, engineering and artistic approach to the integration of “nano” into the noosphere. The terminal design considers extreme scale differentials, infinite structural sequences, and functional requirements for interprocessing communication, shape, surface, interaction with environment, and resourcefully solves arising contradictions. Tutor(s)